| 1-Wire® Devices |
| DS2788 DS2784 DS2781 | Calibrating the Current Offset Bias (COB) Register for the DS278x Family of Fuel Gauges |
| DS2780 DS2781 DS2782 DS2784 DS2788 | Calibrating RSGAIN for the DS278x Family of Fuel Gauges |
| DS2703 | Communication Flowchart for the DS2703 |
| DS2784 | Storing Fuel Gauge Parameters in the DS2784 |
| DS2781 | Storing Battery Fuel Gauge Parameters in the DS2781 |
| DS2761 DS2760 | Assembling High-Lead (Pb) DS2761 Flip-Chips in a Pb-Free Assembly Flow |
| DS2782 DS2780 | Storing Battery Fuel Gauge Parameters in DS2780 |
| DS2502 | Assembling High-Lead (Pb) DS2502 Flip-Chips in a Pb-Free Assembly Flow |
| DS2720 DS2751 DS18S20 DS2761 DS1822 DS2770 DS2762 DS2760 DS2431 DS2740 DS18B20 | 1-Wire Communication with a Microchip PICmicro Microcontroller |
| DS2762 DS80C310 DS80C320 DS2250 DS2252T DS89C450 DS2250T DS2251T DS5250 DS87C530 DS2751 DS87C550 DS5000 DS5230 DS80C390 DS5000T DS87C520 DS2760 DS80C400 DS5000FP DS5001FP DS89C430 DS5002FP DS80C323 DS2761 | Interfacing the DS2760 1-Wire High-Precision Li-Ion Battery Monitor and Protection IC in a Microcontroller Environment |
| DS1WM | Interfacing the 1-Wire Master (DS1WM) to an ARM7 Processor |
| DS1WM DS18B20 DS2502-E48 DS2408 | Using an API to Control the DS1WM 1-Wire® Bus Master |
| DS2408 DS2502-E48 DS1WM | Embedding the 1-Wire® Master |
| A/D and D/A Conversion/Sampling Circuits |
| DS4424 DS4412 DS4404 DS4402 | How to Add Margining Capability to a DC-DC Converter |
| | Analog ICs for Low Voltage Systems |
| General |
| MAX8860 MAX665 MAX8863 MAX665 MAX8864 | Simple Methods Reduce Input Ripple for All Charge Pumps |
| MAX856 MAX858 | Boost Converter Generates Three Analog Rails |
| MX7228 MAX660 | Octal Trimpots Offer Rail-to-Rail Adjustments |
| MAX541 MAX4162 MAX542 MAX837 | DAC and Op Amp Generate Variable Negative Control Voltage |
| MAX666 MAX187 MAX220 | PC Serial Port Drives 12-Bit A/D Converter |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| Amplifier and Comparator Circuits |
| | Analog ICs for Low Voltage Systems |
| MAX4410 | 3V Supply Delivers 12VP-P to Piezoelectric Speaker |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| MAX668 MAX4130 | 15V Input Converter Generates -185V at 50mA |
| Audio |
| MAX8877 MAX4478 | USB-Powered High Precision Hi-Fi Phono Preamp |
| MAX495 | Low Noise Audio Power Supply Circuit |
| Battery Applications |
| MAX8515 MAX4263 | Simplified Lithium-Ion (Li+) Battery-Charger Testing |
| MAX9030 | Low-Battery Indicator Is Low Cost, Highly Efficient, and Environmentally Friendly |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| MAX1692 | Current-Limit Circuit for the Buck Regulator |
| Comparators |
| MAX4272 | Minimize Short-Circuit Current Pulse in Hot-Swap Controller |
| Current Sensing |
| MAX8815 MAX9938H | Low-Loss LED Driver Improves a System's Green Footprint by Boosting Efficiency and Extending Battery Life
|
| MAX4172 | High-Side Current-Sense Amplifier Operates at High Voltage |
| MAX4040 MAX1698 | Circuit Drives Mixed Types and Quantities of LEDs |
| MAX4372 | High-Accuracy Current-Sense Amplifier Enables Current Sensing and Current Sharing |
| MAX603 MAX472 | Variable, Linear Current Source Operates On 5V |
| MAX1692 | Current-Limit Circuit for the Buck Regulator |
| Miscellaneous |
| MAX998 | Self-Oscillating Contactor Driver Minimizes Hold Power |
| MAX856 MAX982 | Harnessing Solar Power with Smart Power-Conversion Techniques |
| Op Amp Analysis, Tips and Tricks |
| MAX541 MAX4162 MAX542 MAX837 | DAC and Op Amp Generate Variable Negative Control Voltage |
| Power Supplies |
| MAX8515 MAX4263 | Simplified Lithium-Ion (Li+) Battery-Charger Testing |
| MAX8640 | An Introduction to Switch-Mode Power Supplies |
| MAX5068 MAX5048 MAX8515 MAX9010 | Designing Single-Switch, Resonant-Reset, Forward Converters |
| MAX4162 | Bias Supply Powers Low-Power Geiger-Mueller Tube |
| MAX5035 MAX5033 MAX16802 MAX16801 | High-Efficiency Current Drive for High-Brightness LEDs |
| MAX4475 MAX6126 | Ultra-Low-Noise LDO Achieves 6nV/√Hz Noise Performance |
| MAX1857 | Single Transistor Reduces LDO Noise by 46dB |
| MAX5072 | 2.2MHz Buck or Boost Power Supply for ADSL2+ Chipset |
| MAX5003 MAX5003 | A 50 Watt Internal Bus Architecture (IBA) Power Supply |
| MAX1796 | High-Efficiency Step-Up Converter Robs Parallel Port |
| | Simple Circuit Disconnects Load from Low-Voltage Supply |
| MAX5052A | A Compact, Isolated Power Supply, 48V to 3.3V at 7A |
| MAX4040 MAX1698 | Circuit Drives Mixed Types and Quantities of LEDs |
| MAX603 MAX472 | Variable, Linear Current Source Operates On 5V |
| MAX495 | Low Noise Audio Power Supply Circuit |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| MAX856 MAX982 | Harnessing Solar Power with Smart Power-Conversion Techniques |
| MAX1692 | Current-Limit Circuit for the Buck Regulator |
| Sensors and Instrumentation |
| MAX881R MAX6304 MAX933 | Pulsed Sensor Extends Battery Life |
| Telecom |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| ASICs |
| MAX5073 MAX6398 | High-Frequency Automotive Power Supplies |
| DS1WM DS18B20 DS2502-E48 DS2408 | Using an API to Control the DS1WM 1-Wire® Bus Master |
| DS2408 DS2502-E48 DS1WM | Embedding the 1-Wire® Master |
| Audio Circuits |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| MAX8715 MAX9744 MAX9768 MAX9789 | Overview of 2.1 (Satellite/Subwoofer) Speaker Systems |
| MAX9775 MAX9776 MAX9789 MAX9700 MAX9701 MAX9705 MAX9773 MAX9715 MAX9744 MAX9703 MAX9704 MAX9708 MAX9709 MAX9713 MAX9714 MAX9741 MAX9742 MAX9743 MAX9752 MAX9753 MAX9755 MAX9770 MAX9772 | Class D Amplifiers: Fundamentals of Operation and Recent Developments |
| MAX4410 | 3V Supply Delivers 12VP-P to Piezoelectric Speaker |
| MAX495 | Low Noise Audio Power Supply Circuit |
| Automotive |
| MAX16820 | SEPIC Backlight LED Driver
|
| ICM7555 MAX16823 | Reference Design for a 3S3P Rear Combination Lamp (RCL) LED Driver |
| MAX15026 | Reference Design Using the MAX15026 for an Auxiliary Power Supply for LCD TVs or Set-Top Boxes |
| MAX15007 | Ultra-Low Quiescent-Current Linear Regulator for Automotive Air Bags |
| MAX15005B | Vacuum Fluorescent Display (VFD) Reference Design for Automotive Applications |
| MAX15005 | How to Use the MAX15005 Current-Mode Controller as a Boost Circuit for an Automotive Cold-Crank Condition |
| MAX6397 MAX16014 MAX16013 MAX6398 MAX6399 MAX6495 MAX6496 MAX6497 MAX6498 MAX6499 | Active High-Voltage Transient Protectors Trump Conventional Approaches in Automotive Electronics |
| MAX6752 | Comparison of Internal and External Watchdog Timers |
| MAX15005AAUE MAX4407 MAX15005 | Using the MAX15005 Supply and Driver for an LED Application |
| DS3881 MAX6613 MAX6818 MAX16806 MAX16805 MAX16800 | Power Supplies for Next-Generation Automotive Lighting |
| MAX9775 MAX9776 MAX9789 MAX9700 MAX9701 MAX9705 MAX9773 MAX9715 MAX9744 MAX9703 MAX9704 MAX9708 MAX9709 MAX9713 MAX9714 MAX9741 MAX9742 MAX9743 MAX9752 MAX9753 MAX9755 MAX9770 MAX9772 | Class D Amplifiers: Fundamentals of Operation and Recent Developments |
| MAX1725 MAX5084 MAX5085 MAX5087 MAX1470 MAX1472 MAX15006 MAX6791 MAX6792 | Automotive Linear Regulators Minimize Quiescent Current |
| MAX5072 MAX5073 MAX5072 MAX5073 MAX5073 MAX5072 | External Component Calculator for Setting up a Buck or Boost Converter with the MAX5072/MAX5073 |
| MAX1864 MAX1865 MAX1964 MAX1965 MAX8513 MAX8514 | Current Limiting for the MAX1864 Auxiliary Regulator |
| MAX5024 | Pass Transistor Enhances Regulator's Output Current |
| MAX1969 MAX1968 MAX4238 MAX8520 MAX4477 MAX4475 MAX1979 MAX1978 MAX8521 | HFAN-08.2.0: Thermoelectric Cooler (TEC) Control |
| MAX1939 MAX1937 LMX321 MAX1938 | Power Supply Meets AMD K8 Low-Power Mobile Specification |
| MAX4400 MAX8538 MAX837 | All-Ceramic Capacitor Step-Down/Inverter Supplies ±5V at 3A |
| MAX1811 LMX393 MAX9032 | Dual Comparator Thermally Protects Li+ Battery |
| MAX5048 MAX9001 MAX9053 MAX5052A MAX5048 MAX5052 MAX6501 | A Compact 36-72V DC Input, 3.3V/10A Output Power Supply
|
| MAX8877 MAX4478 | USB-Powered High Precision Hi-Fi Phono Preamp |
| MAX1938 MAX1939 MAX1937 MAX4477 | Convert the MAX1937/8/9 from Latch Off Mode to Hiccup Mode Under Short Circuit Condition |
| MAX9030 | Low-Battery Indicator Is Low Cost, Highly Efficient, and Environmentally Friendly |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX829 | Voltage-Inverter IC Forms High-Efficiency Rail Splitter |
| MAX668 | Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices |
| MAX668 | Isolated SLIC Supply |
| MAX668 MAX1605 | Small, High-Voltage Boost Converters |
| MAX828 | Tiny Charge Pump Provides Highly Reliable Low-Cost Solution to Negative Reference Voltage |
| MAX1771 MAX668 | Step-Up Controller Forms Negative Step-Down Regulator |
| MAX668 | High-Efficiency Boost Converter Provides 48V for IP Phones |
| MAX668 | High-Efficiency Boost Converter Provides 24V for DTE |
| MAX668 | R-C Snubbing for the Lab |
| MAX668 | SLIC Power-Supply Design |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| MAX471 MAX4073 MAX4372 MAX4375 MAX4374 MAX4376 MAX4173 MAX4172 MAX4080 MAX4373 MAX472 MAX4070 | High-Side Current-Sense Measurement: Circuits and Principles |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX871 MAX828 MAX861 MAX868 MAX829 MAX1673 MAX870 MAX1720 MAX1719 MAX1759 MAX683 MAX860 MAX619 MAX684 MAX1044 ICL7660 MAX1721 MAX1681 MAX1682 MAX1680 MAX1683 MAX682 | DC-DC Conversion Without Inductors |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| MAX668 MAX4130 | 15V Input Converter Generates -185V at 50mA |
| MAX1800 MAX668 | Step-up Converter with LDO Beats SEPIC Efficiency |
| MAX668 MAX4130 | Extending Soft-Start |
| MAX4130 MAX668 | +12V Input Converter Generates -165V at 100mA |
| MAX4130 MAX668 | 5V Input Converter Generates -30V at 80mA |
| MAX668 | 3.3V Supply Taps Power from the -12V PCI Bus |
| MAX668 | Dual-Output SLIC Supply Shares Feedback |
| MAX608 MAX809L | Switch-Mode Converter Starts With Full Load Connected |
| Battery Management |
| | Analog ICs for Low Voltage Systems |
| MAX6381 MAX6743 MAX6390 MAX6739 MAX6388 MAX6387 MAX6386 MAX5040 MAX6736 MAX6382 MAX6742 MAX6384 MAX5039 MAX6385 MAX6383 MAX6745 MAX6740 MAX6741 MAX6737 MAX6744 MAX6389 MAX6738 | Power-On Reset and Related Supervisory Functions |
| MAX1627 MAX1626 | Source Resistance: The Efficiency Killer in DC-DC Converter Circuits |
| | Match the Battery to the Application to Avoid Disappointment |
| DS2761 | Characterizing a Li+ Cell for Use With a Fuel Gauge |
| MAX9030 | Low-Battery Indicator Is Low Cost, Highly Efficient, and Environmentally Friendly |
| | Dual-Voltage Supply Powers SIM Card |
| MAX1771 MAX472 | Step-Up Supply Charges Battery While Serving Load |
| MAX1745 MAX1744 | Turn-On Switching Loss of An Asynchronous Buck Converter |
| MAX1802 | The MAX1802 for Digital Still Camera from 2AA Batteries |
| MAX1864 | The MAX1864 Generates 1.2V or Lower Output Voltage |
| MAX1864 | Adding POR Function to the MAX1864 Generating Two Outputs |
| MAX1970 | Dual 1.4MHz Synchronous Buck Regulator Supports USB Dying Gasp Applications |
| MAX1856 | Flyback Circuit Powers Broadband Phone Networks |
| | Mathcad Calculates Input Capacitor for Step-Down Buck Regulator |
| MAX1682 MAX1681 MAX1697 | Properties of the Charge-Pump Voltage Splitter |
| | A Smart Solid-State Fuse Cures Boost-Converter Ills |
| | High-Voltage PWM Controller Yields Small, Efficient Telecom/Datacom Supplies |
| | New Developments in Battery Chargers |
| | Powering Portable CPU Cores |
| | Push-Pull Driver Provides Isolated 5V at 1A |
| | Energy Management for Small Portable Systems |
| | Power-Supply IC Accommodates Dual-Voltage Portable Systems |
| | Charge Pumps Shine in Portable Designs |
| MAX881 MAX8878 MAX1692 MAX8863 MAX8877 | Managing Noise in Cell-Phone Handsets |
| | Power Efficiency in Next-Generation CPUs Tied to MOSFET Choice |
| | Versatile ICs Enable Chemistry-Independent Battery Charging |
| MAX752 | Flyback Converter Serves Battery-Powered CCD Applications |
| | Feedback Isolation Augments Power-Supply Safety and Performance |
| | Proper Handling Helps Make the Most of Li-Ion Batteries |
| | Power Conservation in 3V/5V Dual-Supply Systems |
| | Regulator Topologies For Battery-Powered Systems |
| | Ultra-Thin DC-DC Converters Suit Compact PCMCIA Cards |
| | Simple Circuit Disconnects Load |
| | Circuit Tradeoffs Minimize Noise in Battery-Input Power Supplies |
| | Synchronous Rectification Aids Low-Voltage Power Supplies |
| | Reverse-Current Circuitry Protection |
| MAX718 | Dual Boost Regulator Handles Heavy Surge Currents |
| DS2762 DS80C310 DS80C320 DS2250 DS2252T DS89C450 DS2250T DS2251T DS5250 DS87C530 DS2751 DS87C550 DS5000 DS5230 DS80C390 DS5000T DS87C520 DS2760 DS80C400 DS5000FP DS5001FP DS89C430 DS5002FP DS80C323 DS2761 | Interfacing the DS2760 1-Wire High-Precision Li-Ion Battery Monitor and Protection IC in a Microcontroller Environment |
| DS1WM DS18B20 DS2502-E48 DS2408 | Using an API to Control the DS1WM 1-Wire® Bus Master |
| MAX641 | Regulated Charge Pump Delivers 50mA |
| MAX666 | Low-Power DC-DC Converter Derives 5V From 3V Battery |
| ICL7660 | Lower Operating Frequency Improves ICL7660 Voltage-Conversion Efficiency |
| MAX680 MAX666 | MOSFET Pass Element Yields 100mV-Dropout Regulator |
| Battery Chargers |
| MAX8515 MAX4263 | Simplified Lithium-Ion (Li+) Battery-Charger Testing |
| DS2712 | Estimating Switching Speed for the DS2712 NiMH Battery Charger |
| DS2715 | Estimating Switching Speed for the DS2715 NiMH Battery Charger |
| MAX8671X | Simplify the Design of 1-Cell Li+ Battery-Operated Devices |
| MAX1737 MAX1508 MAX1873 | Understanding Li+ Battery Operation Lessens Charging Safety Concerns |
| DS2711 DS2712 MAX8601 | Overview of Rechargeable Batteries and Fast Stand-Alone Chargers |
| DS2714 | Using an nMOS Transistor with the DS2714 |
| MAX1737 | Improving Accuracy of the MAX1737 Lithium-Ion Battery Charger |
| DS2711 DS2712 DS2715 | Charging Batteries from USB |
| DS2720 | Rechargeable Batteries: Basics, Pitfalls, and Safe Recharging Practices |
| DS2711 DS2712 | Detecting Primary Cells with the DS2711/12 |
| MAX1811 | Add Current Boost to USB Charger Driven by an AC Adapter |
| MAX1729 MAX1692 MAX1749 MAX1879 | Design Case Study: Designing a Power Supply for a Portable, Wireless Contact Manager |
| MAX1772 | Choices for Battery-Charging System Architecture |
| MAX5021 MAX1898 | How to Minimize Power Dissipation in Li+ Linear Chargers |
| MAX1811 MAX1797 MAX1837 MAX1811 MAX1797 MAX1837 | Portable Supply Derives +5V and +3.3V Power from USB Port |
| MAX713 | Add-On Circuit Preconditions Battery before Charging |
| MAX1737 MAX1736 MAX1898 | Switch-Mode, Linear, and Pulse Charging Techniques for Li+ Battery in Mobile Phones and PDAs |
| | Ultra-Low Resistance Surface Mount Current Shunts |
| MAX1879 | Single-Cell Li+ Cradle Charger With A Linear AC Adapter |
| MAX495 MAX797 | Battery Charger Delivers 2.5A With >96% Efficiency |
| MAX846 MAX745 | Portable Devices Need High-Performance Battery Chargers |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| MAX1926 MAX1640 MAX1547 MAX846A MAX745 MAX2003 MAX713 MAX1548 MAX2003A MAX712 | How to Design Battery Charger Applications that Require External Microcontrollers and Related System-Level Issues |
| MAX773 MAX471 | Simple Circuit Charges Lead-Acid Batteries |
| MAX627 MAX722 | Switch-Mode Supply Charges Battery While Serving Load |
| MAX770 MAX713 | Quick-Charge IC Routes Step-Up Switcher Output To Battery |
| MAX856 MAX982 | Harnessing Solar Power with Smart Power-Conversion Techniques |
| | Comparing the I²C Bus to the SMBus |
| ICM7556 MAX713 MAX712 | One-Hour Battery Charger Has Switch-Mode PWM Control |
| MAX639 | Battery Charger Regulates Input Voltage |
| MAX1772 | Input Current Limiting in Battery Chargers for Mobile Computing Applications |
| ICL7612 MAX770 | Step-Up/Step-Down Current Source Charges Batteries |
| MAX713 | Battery Charger Indicates Trickle Or Fast Charge |
| MAX771 | Boost DC-DC Voltage Regulator Converts To Current Source for Battery Charging |
| Battery Protection |
| DS2726 | Designing the DS2726 to Protect Li+ Batteries During a Reverse Charger Event |
| DS2784 | Protection Circuitry for Reversed Charger Connections to the DS2784 High-Side nFET Protector |
| MAX1737 MAX1508 MAX1873 | Understanding Li+ Battery Operation Lessens Charging Safety Concerns |
| | Understanding the DS2784's Undervoltage-Protection Delay (tUVD) |
| MAX4481 MAX6435 MAX1797 | Circuit Enables Single NiMH Cell to Simulate a Lithium Battery |
| DS2720 | Rechargeable Batteries: Basics, Pitfalls, and Safe Recharging Practices |
| DS2762 DS2761 DS2760 | Waking up a DS2761/DS2762 |
| DS2762 | Powering up a DS2762 |
| DS2761 | Powering up a DS2761 |
| DS2720 DS2751 DS18S20 DS2761 DS1822 DS2770 DS2762 DS2760 DS2431 DS2740 DS18B20 | 1-Wire Communication with a Microchip PICmicro Microcontroller |
| MAX1615 MAX4374 | Overcurrent/Overdischarge Protection for Lead-Acid Batteries |
| MAX1614 | MOSFET Driver Is Reverse-Battery Protected |
| MAX680 MAX8211 | Load-Disconnect Switch Consumes Only 8µA |
| | Ultra-Low Resistance Surface Mount Current Shunts |
| DS2760 DS2751 DS2761 DS2762 | Calibrating the Offset Register of the DS2761 |
| DS2762 DS2761 DS2760 | DS276x Product Comparison |
| DS2762 DS2760 DS2761 DS2751 | Testing and Calibrating a DS2760 Li-Ion Battery Monitor and Protector Based Circuit |
| Battery Selectors |
| DS2746 | Using the DS2746 to Identify a Battery-Pack Based on an Identification Resistor |
| MAX6820 | The FET-OR Connection for Power Supplies |
| DS2760 DS2761 DS2762 | Multiple Battery Pack Applications Using the DS2760 or DS2761 |
| Fuel-Gauge Circuits |
| DS2786 | Using the DS2786 Battery Fuel Gauge in the Host Side of a 2-Cell Battery Application |
| DS2786 | Characterizing a Lithium-Ion (Li+) Cell for Use with an Open-Circuit-Voltage (OCV) Based Fuel Gauge |
| DS2786 | Programming and Testing a DS2786-Based Circuit |
| DS2786 | Using the DS2786 Battery Fuel Gauge in a 2-Cell Battery Pack |
| | Understanding the DS2784's Undervoltage-Protection Delay (tUVD) |
| DS2786 | Interpreting the Open-Circuit-Voltage (OCV) Fuel Gauge of the DS2786 |
| DS2786 | Getting Started with the DS2786K |
| | Battery Fuel Gauges: Accurately Measuring Charge Level |
| DS2746 | Using the DS2746 to Identify a Battery-Pack Based on an Identification Resistor |
| DS2751 MAX8881 DS2490 DS2151 | Simple Characterization Circuit for Rechargeable AA Cells |
| DS2761 DS2762 | Upgrading to the DS2762 from the DS2761 |
| DS2780 | DS2780 Board Layout to Minimize Current Measurement Offset Error |
| DS2762 DS2761 DS2760 | Waking up a DS2761/DS2762 |
| DS2740 | Alternate DS2740U Application Circuit with Reduced Current Measurement Offset Error
|
| DS2720 DS2751 DS18S20 DS2761 DS1822 DS2770 DS2762 DS2760 DS2431 DS2740 DS18B20 | 1-Wire Communication with a Microchip PICmicro Microcontroller |
| DS2761 DS2762 DS2770 DS2760 | DS27xx Fuel Gauge Board Layout Techniques to Minimize Measurement Error |
| DS2740 | DS2740 High-Precision Coulomb Counter Reference Design |
| DS2751 | Using the DS2751 Battery Fuel Gauge in Multiple-Cell Battery Pack Applications |
| DS2770 DS2751 DS2762 DS2740 DS2760 DS2761 | Increasing the Fuel Gauge Dynamic Range |
| DS2761 | Frequency Undersampling in Coulomb-Counting: Measuring Current Flow in Battery Applications |
| | Ultra-Low Resistance Surface Mount Current Shunts |
| MAX1660 | Evaluating Accuracy of Coulomb-Counting Fuel-Gauging Systems |
| | Comparing the I²C Bus to the SMBus |
| DS2751 DS2760 DS2770 DS2761 DS2762 | Compensating for Sense Resistor Self Heating |
| DS2760 DS2751 DS2761 DS2762 | Calibrating the Offset Register of the DS2761 |
| DS2762 DS2761 DS2760 | DS276x Product Comparison |
| DS2762 DS2761 DS2760 | Using the DS2760 or DS2761 Battery Monitor in Multiple-Cell Applications |
| DS2751 DS2760 DS2438 DS2761 DS2762 | Lithium-Ion Cell Fuel Gauging with Maxim Battery Monitor ICs |
| DS2762 DS2760 DS2761 DS2751 | Testing and Calibrating a DS2760 Li-Ion Battery Monitor and Protector Based Circuit |
| DS2438 | Recommended ESD Protection and Circuit Placement for the DS2438 in Li-Ion Cell Pack Master |
| DS2761 DS2760 DS2770 DS2762 DS2751 | Inaccuracies of Estimating Remaining Cell Capacity with Voltage Measurements Alone |
| General |
| DS2746 | Using the DS2746 to Identify a Battery-Pack Based on an Identification Resistor |
| MAX6327 MAX1697 | Simple Circuit Disconnects Load from Low-Voltage Supply |
| | Technology Changes: From a Portable Power Point of View |
| | Lithium Coin-Cell Batteries: Predicting An Application Lifetime |
| | Life with Batteries - Don't Ignore Typical Specs |
| MAX8865S | Battery-Switchover Circuit Accommodates 3V Systems |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| DS2760 DS2770 DS2751 DS2761 DS2762 | Sense Resistor Power Dissipation |
| DS1WM | Interfacing the 1-Wire Master (DS1WM) to an ARM7 Processor |
| DS2438 | Using Dallas Battery Management ICs with High Voltage Battery Packs |
| DS2436 | Battery Considerations for Today's Low-Power, Long-Life Solid State Devices |
| DS1822 DS1820 DS18S20 DS2436 DS18B20 | Using Dallas' 1-Wire ICs in 1-Cell Li-Ion Battery Packs With Low-Side N-Channel Safety FETs Master |
| DS2408 DS2502-E48 DS1WM | Embedding the 1-Wire® Master |
| Circuit Protection |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX6397 MAX16014 MAX16013 MAX6398 MAX6399 MAX6495 MAX6496 MAX6497 MAX6498 MAX6499 | Active High-Voltage Transient Protectors Trump Conventional Approaches in Automotive Electronics |
| MAX6752 | Comparison of Internal and External Watchdog Timers |
| MAX1558 | Surge Testing Solid-State USB Switches and Other Overcurrent Protectors |
| MAX1725 MAX5084 MAX5085 MAX5087 MAX1470 MAX1472 MAX15006 MAX6791 MAX6792 | Automotive Linear Regulators Minimize Quiescent Current |
| DS2502 | Assembling High-Lead (Pb) DS2502 Flip-Chips in a Pb-Free Assembly Flow |
| MAX1614 | Series Protection for Power-Line Transients |
| MAX4272 | Minimize Short-Circuit Current Pulse in Hot-Swap Controller |
| | Power-Backup Switch |
| MAX6473 | One Button Turns Microprocessor On and Off |
| MAX4322 MAX4375 | Add Fault Protection to 4-20mA Loop Supply |
| | Minimizing Short-Circuit Current Amplitude and Pulse Width When Hot-Swap Controller Output is Shorted |
| MAX8515 | Using the MAX8515 Shunt Regulator In Output
Overvoltage Sensing Applications for DC-DC Converters |
| MAX1703 | DC-to-DC Converter Combats EMI |
| MAX1856 | Snubber Circuits Suppress Voltage Transient Spikes in Multiple Output DC-DC Flyback Converter Power Supplies |
| MAX471 MAX4073 MAX4372 MAX4375 MAX4374 MAX4376 MAX4173 MAX4172 MAX4080 MAX4373 MAX472 MAX4070 | High-Side Current-Sense Measurement: Circuits and Principles |
| MAX623 MAX9943 MAX4172 MAX933 | Overload Circuitry Protects Batteries and Power Supplies |
| MAX641 | Derive 12V From 8V to 15V Input |
| Communications Circuits |
| DS4404 DS4402 | Using the DS4402/DS4404 to Margin the Output Voltage of a DC-DC Converter |
| MAX845 | Simple Power-FET Driver is Isolated and DC-Coupled |
| MAX774 | Off-The-Shelf Transformer Adapts Controller For SLIC Applications |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| Digital Potentiometers |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| | Analog ICs for Low Voltage Systems |
| A-D and D-A Conversion |
| DS4422 DS4424 | Using the DS4424 to Margin the Output Voltage of a DC-DC Converter |
| Display Control--LCD, CCFL, TFT |
| DS3984 DS3988 | Design Challenges for Backlighting LCD TVs |
| Power Supply Margining and Calibration |
| DS4422 DS4424 | Using the DS4424 to Margin the Output Voltage of a DC-DC Converter |
| MAX5025 DS1845 | Step-Up DC-DC Converter Calibration and Adjustment Using a Digital Potentiometer |
| Display Drivers |
| MAX774 | High-Power LED Driver Accepts Wide Input-Voltage Range |
| General |
| DS3984 DS3988 | Design Challenges for Backlighting LCD TVs |
| LCD Drivers |
| DS3988 DS3984 | DS3984/DS3988 Common Lamp Return
|
| MAX856 | Single-Cell Boost Converter Generates Auxiliary Bias For LCD |
| MAX868 | Regulated LCD-Bias Generator Requires No Inductor |
| LED Drivers |
| MAX16821 | 6A RGB LED Driver Reference Design for a Portable Projector |
| MAX8815 MAX9938H | Low-Loss LED Driver Improves a System's Green Footprint by Boosting Efficiency and Extending Battery Life
|
| MAX15005AAUE MAX4407 MAX15005 | Using the MAX15005 Supply and Driver for an LED Application |
| | Replace Inefficient MR16 Halogen Lamps with LEDs |
| MAX1763 | High-Power White-LED Driver Operates on 1 or 2 Alkaline Cells |
| MAX5035 MAX5033 MAX16802 MAX16801 | High-Efficiency Current Drive for High-Brightness LEDs |
| MAX16801B MAX16802B MAX16801A MAX16802A | Design of a Nonisolated, Flyback LED Driver Circuit |
| MAX774 | High-Power LED Driver Accepts Wide Input-Voltage Range |
| White-LED Power Supplies |
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| MAX5035 MAX5033 MAX16802 MAX16801 | High-Efficiency Current Drive for High-Brightness LEDs |
| MAX16801B MAX16802B MAX16801A MAX16802A | Design of a Nonisolated, Flyback LED Driver Circuit |
| MAX774 | High-Power LED Driver Accepts Wide Input-Voltage Range |
| MAX1561 MAX1910 MAX1848 MAX1570 | Why Drive White LEDs with Constant Current? |
| MAX8863 | LDO Improves White LED Current Matching |
| MAX4040 MAX1698 | Circuit Drives Mixed Types and Quantities of LEDs |
| MAX1759 | Compact, Inductorless Boost Circuit Regulates White-LED Bias Current |
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| MAX8863 | LDO Linear Regulator Improves White LED Brightness Matching |
| Filter Circuits (Analog) |
| MAX495 | Low Noise Audio Power Supply Circuit |
| Continuous-Time Filter |
| MAX1792 MAX689 MAX688 MAX8867 MAX687 MAX8875 | Improved Power Supply Rejection For IC Linear Regulators |
| General Engineering Topics |
| | Calculating Energy Usage: How Costs Drive Conservation |
| | ResourceSmart™ (Green) Information for Design Engineers
|
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| | Thermal Characterization of IC Packages |
| | How to Divide and Conquer the Divider: Practical Resistive Dividers, Made Easy |
| DS2761 DS2760 | Assembling High-Lead (Pb) DS2761 Flip-Chips in a Pb-Free Assembly Flow |
| DS2502 | Assembling High-Lead (Pb) DS2502 Flip-Chips in a Pb-Free Assembly Flow |
| | Basic Switching-Regulator-Layout Techniques |
| | Prototyping with Surface Mount Devices |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| Hot-Swap and Power Switching Circuits |
| DS2715 | Optimizing the Load-Switch Function of the DS2715 Battery-Charger IC |
| MAX5072 MAX5073 MAX5072 MAX5073 MAX5073 MAX5072 | External Component Calculator for Setting up a Buck or Boost Converter with the MAX5072/MAX5073 |
| MAX5941A MAX8505 | A Triple-Output ±5% Regulated High Efficiency POE (Power over Ethernet) Supply |
| MAX4272 | Minimize Short-Circuit Current Pulse in Hot-Swap Controller |
| | Minimizing Short-Circuit Current Amplitude and Pulse Width When Hot-Swap Controller Output is Shorted |
| MAX1681 | Relay Driver Requires Only 25% Power |
| MAX8211 MAX1811 MAX6806 MAX1774 MAX1684 MAX1674 MAX1692 | Protection From Blackouts: Dirt Cheap to Fully Integrated |
| MAX4271 max4370 | Flexible Hot-Swap Current Limiter Allows Thermal Protection |
| Interface Circuits |
| DS2715 | Optimizing the Load-Switch Function of the DS2715 Battery-Charger IC |
| MAX253 MAX667 | Draw 150mW Of Isolated Power From Off-Hook Phone Line |
| Other Interface Circuits |
| MAX4322 MAX4375 | Add Fault Protection to 4-20mA Loop Supply |
| MAX4526 MAX4527 | Transmit Digital Signals and Power Over Same Wires |
| MAX1797 | Power Supply From 4-20mA Transmission Line |
| MAX1841 MAX1733 | Parallel-Port Interface Powers Low Voltage Systems |
| USB |
| MAX3421E MAX4793 MAX3421EVKIT-1 MAX3420E | The Maxim USB Laboratory |
| DS2711 DS2712 DS2715 | Charging Batteries from USB |
| Measurement Circuits |
| MAX5048 MAX5054 | SPST Bipolar Power Switch Simplifies Power-Supply Testing |
| MAX4172 | High-Side Current-Sense Amplifier Operates at High Voltage |
| MAX881R MAX6304 MAX933 | Pulsed Sensor Extends Battery Life |
| Memory |
| DS3600 DS3605 DS3640 DS3641 DS3645 DS3650 DS3655 | Secure Supervisors Provide Multifaceted Monitoring to Ensure System Security |
| | Addressing the Physical Security of Encryption Keys |
| Microcontrollers |
| 8051 Drop-In |
| MAX1623 MAX6820 MAX1842 MAX5040 MAX1644 MAX5039 | Dual Voltage Tracking Circuit for I/O, Microprocessor, and DSP Core Voltages |
| DS2762 DS80C310 DS80C320 DS2250 DS2252T DS89C450 DS2250T DS2251T DS5250 DS87C530 DS2751 DS87C550 DS5000 DS5230 DS80C390 DS5000T DS87C520 DS2760 DS80C400 DS5000FP DS5001FP DS89C430 DS5002FP DS80C323 DS2761 | Interfacing the DS2760 1-Wire High-Precision Li-Ion Battery Monitor and Protection IC in a Microcontroller Environment |
| MAXQ Mixed-Signal |
| MAX1623 MAX6820 MAX1842 MAX5040 MAX1644 MAX5039 | Dual Voltage Tracking Circuit for I/O, Microprocessor, and DSP Core Voltages |
| Secure |
| MAX1623 MAX6820 MAX1842 MAX5040 MAX1644 MAX5039 | Dual Voltage Tracking Circuit for I/O, Microprocessor, and DSP Core Voltages |
| TINI Networked |
| MAX1623 MAX6820 MAX1842 MAX5040 MAX1644 MAX5039 | Dual Voltage Tracking Circuit for I/O, Microprocessor, and DSP Core Voltages |
| Microprocessor Supervisor Circuits |
| 1. Tutorials |
| MAX6397 MAX6398 MAX6495 MAX6496 MAX6497 MAX6498 MAX6499 | Alternate Circuits for Overvoltage Protection: Tips and Tricks |
| MAX6381 MAX6743 MAX6390 MAX6739 MAX6388 MAX6387 MAX6386 MAX5040 MAX6736 MAX6382 MAX6742 MAX6384 MAX5039 MAX6385 MAX6383 MAX6745 MAX6740 MAX6741 MAX6737 MAX6744 MAX6389 MAX6738 | Power-On Reset and Related Supervisory Functions |
| 2. Simple Reset/Power-On Reset (POR) |
| MAX6381 MAX6743 MAX6390 MAX6739 MAX6388 MAX6387 MAX6386 MAX5040 MAX6736 MAX6382 MAX6742 MAX6384 MAX5039 MAX6385 MAX6383 MAX6745 MAX6740 MAX6741 MAX6737 MAX6744 MAX6389 MAX6738 | Power-On Reset and Related Supervisory Functions |
| 3. Voltage Detectors and Battery Monitors |
| MAX6397 MAX6398 MAX6495 MAX6496 MAX6497 MAX6498 MAX6499 | Alternate Circuits for Overvoltage Protection: Tips and Tricks |
| DS28DG02 | User's Guide to the DS28DG02
|
| MAX6381 MAX6743 MAX6390 MAX6739 MAX6388 MAX6387 MAX6386 MAX5040 MAX6736 MAX6382 MAX6742 MAX6384 MAX5039 MAX6385 MAX6383 MAX6745 MAX6740 MAX6741 MAX6737 MAX6744 MAX6389 MAX6738 | Power-On Reset and Related Supervisory Functions |
| 4. Multivoltage Monitors |
| MAX6381 MAX6743 MAX6390 MAX6739 MAX6388 MAX6387 MAX6386 MAX5040 MAX6736 MAX6382 MAX6742 MAX6384 MAX5039 MAX6385 MAX6383 MAX6745 MAX6740 MAX6741 MAX6737 MAX6744 MAX6389 MAX6738 | Power-On Reset and Related Supervisory Functions |
| 5. Power-Supply Sequencers and Voltage Trackers |
| MAX6381 MAX6743 MAX6390 MAX6739 MAX6388 MAX6387 MAX6386 MAX5040 MAX6736 MAX6382 MAX6742 MAX6384 MAX5039 MAX6385 MAX6383 MAX6745 MAX6740 MAX6741 MAX6737 MAX6744 MAX6389 MAX6738 | Power-On Reset and Related Supervisory Functions |
| MAX1964 MAX1965 | Multiple Output Power Supplies with Output Sequencing |
| 6. Battery-Backup ICs and NV RAM Controllers |
| | Power-Backup Switch |
| MAX756 MAX981 | Supply Circuitry Selects Main/Backup Voltage and Disconnects |
| MAX8865S | Battery-Switchover Circuit Accommodates 3V Systems |
| MAX882 | Latching Regulator Prevents Deep Discharge Of Battery |
| MAX791 MAX630 | Provide Battery Backup For Pseudo-Static RAMs |
| 7. Watchdog Timers |
| DS28DG02 | User's Guide to the DS28DG02
|
| 8. Switch Debouncers and Pushbutton Devices |
| MAX6473 | One Button Turns Microprocessor On and Off |
| 9. Regulators with Integrated Reset |
| MAX6397 MAX6398 MAX6495 MAX6496 MAX6497 MAX6498 MAX6499 | Alternate Circuits for Overvoltage Protection: Tips and Tricks |
| MAX6473 | One Button Turns Microprocessor On and Off |
| MAX756 MAX981 | Supply Circuitry Selects Main/Backup Voltage and Disconnects |
| MAX8865S | Battery-Switchover Circuit Accommodates 3V Systems |
| MAX882 | Latching Regulator Prevents Deep Discharge Of Battery |
| MAX791 MAX630 | Provide Battery Backup For Pseudo-Static RAMs |
| Miscellaneous Circuits |
| MAX998 | Self-Oscillating Contactor Driver Minimizes Hold Power |
| MAX856 MAX982 | Harnessing Solar Power with Smart Power-Conversion Techniques |
| Optoelectronics |
| Reference Designs |
| MAX3845 MAX3814 MAX4814E MAX3208 MAX4906 MAX4899 MAX3207 MAX1558 MAX4550 MAX9728 MAX9723 MAX7312 MAX3397 MAX6348 MAX1563 MAX1853 MAX6817 | HFRD-34.0 4 x 4 DVI KVM Switch |
| Applications: Optical Control and Monitoring |
| MAX1932 | Avalanche-Photodiode Detector Circuit Limits Current to 1mA and Improves Transient Response |
| MAX8521 MAX8520 | Stabilizing Thermoelectric Controller (TEC) Loops Using a Unit-Step Response |
| MAX4328 MAX5144 MAX8521 MAX8520 | Compact DWDM laser Temperature Control with the MAX8521 |
| General: Optical Transmitter and Receiver Interfacing |
| MAX5304 MAX6102 MAX3664 MAX5026 MAX3271 | HFAN-03.1.1: Digitally Programmable Low-Noise Avalanche Photo Detector (APD) Bias Circuit |
| Oscillators/Delay Lines/Timers/Counters |
| MAX1724 MAX1522 | Converter Boosts One-Cell Battery Voltage to 50V |
| Power-Supply Circuits |
| DS4424 DS4412 DS4404 DS4402 | How to Add Margining Capability to a DC-DC Converter |
| DS4404 DS4402 | Using the DS4402/DS4404 to Margin the Output Voltage of a DC-DC Converter |
| | Analog ICs for Low Voltage Systems |
| MAX774 | High-Power LED Driver Accepts Wide Input-Voltage Range |
| MAX4428 MAX1960EVKIT MAX1960 | Testing a Power Supply for Line and Load Transients |
| MAX1939 MAX1937 LMX321 MAX1938 | Power Supply Meets AMD K8 Low-Power Mobile Specification |
| | 3A Internal Switch Step-Down Regulators Uses All Ceramic Capacitors for Small Footprint |
| | Dual-Voltage Supply Powers SIM Card |
| MAX761 | ±5V Regulator Accepts Inputs From -2V to -12V |
| MAX1771 | APD Bias Circuit Has Adjustable Output |
| MAX1745 MAX1744 | Turn-On Switching Loss of An Asynchronous Buck Converter |
| MAX1802 | The MAX1802 for Digital Still Camera from 2AA Batteries |
| MAX1864 | The MAX1864 Generates 1.2V or Lower Output Voltage |
| MAX1864 | Adding POR Function to the MAX1864 Generating Two Outputs |
| MAX495 | Low Noise Audio Power Supply Circuit |
| MAX1970 | Dual 1.4MHz Synchronous Buck Regulator Supports USB Dying Gasp Applications |
| MAX1856 | Flyback Circuit Powers Broadband Phone Networks |
| | Mathcad Calculates Input Capacitor for Step-Down Buck Regulator |
| MAX871 MAX828 MAX861 MAX868 MAX829 MAX1673 MAX870 MAX1720 MAX1719 MAX1759 MAX683 MAX860 MAX619 MAX684 MAX1044 ICL7660 MAX1721 MAX1681 MAX1682 MAX1680 MAX1683 MAX682 | DC-DC Conversion Without Inductors |
| | A Smart Solid-State Fuse Cures Boost-Converter Ills |
| | High-Voltage PWM Controller Yields Small, Efficient Telecom/Datacom Supplies |
| | New Developments in Battery Chargers |
| | Powering Portable CPU Cores |
| | Push-Pull Driver Provides Isolated 5V at 1A |
| | Energy Management for Small Portable Systems |
| | Power-Supply IC Accommodates Dual-Voltage Portable Systems |
| | Charge Pumps Shine in Portable Designs |
| MAX881 MAX8878 MAX1692 MAX8863 MAX8877 | Managing Noise in Cell-Phone Handsets |
| | Versatile ICs Enable Chemistry-Independent Battery Charging |
| | Feedback Isolation Augments Power-Supply Safety and Performance |
| | Power Conservation in 3V/5V Dual-Supply Systems |
| | Regulator Topologies For Battery-Powered Systems |
| | Ultra-Thin DC-DC Converters Suit Compact PCMCIA Cards |
| | Simple Circuit Disconnects Load |
| | Circuit Tradeoffs Minimize Noise in Battery-Input Power Supplies |
| | Synchronous Rectification Aids Low-Voltage Power Supplies |
| | Reverse-Current Circuitry Protection |
| ICL7621 MAX770 | Boost/Linear Regulator Derives 5V From Four Cells |
| MAX630 MAX666 | Uninterruptible 5V Supply Has Low Power Consumption |
| MAX641 | Regulated Charge Pump Delivers 50mA |
| MAX666 | Low-Power DC-DC Converter Derives 5V From 3V Battery |
| ICL7660 | Lower Operating Frequency Improves ICL7660 Voltage-Conversion Efficiency |
| MAX641 MAX627 | Inductorless Switching Regulator Boosts Input Voltage |
| MAX680 MAX666 | MOSFET Pass Element Yields 100mV-Dropout Regulator |
| APP NOTES FOR: Automotive |
| MAX15026 | Reference Design Using the MAX15026 for an Auxiliary Power Supply for LCD TVs or Set-Top Boxes |
| MAX15007 | Ultra-Low Quiescent-Current Linear Regulator for Automotive Air Bags |
| DS1090 MAX6496 MAX5061 MAX5060 | DC-DC Controllers Use Average-Current-Mode Control for Infotainment Applications |
| MAX5035 | How to Generate Auxiliary Supplies from a Positive Buck DC-DC Converter |
| MAX1615 MAX4374 | Overcurrent/Overdischarge Protection for Lead-Acid Batteries |
| MAX1523 MAX1806 MAX1845 MAX1857 MAX1844 MAX1634 MAX1745 MAX1763 MAX868 MAX8881 MAX1904 | Choosing the Right DC-DC Converter for Automotive Applications |
| MAX761 | Low-Cost Step-Up/Step-Down Converter Accepts 2V to 16V Inputs |
| MAX668 MAX1605 | Small, High-Voltage Boost Converters |
| MAX770 MAX845 | 5V Step-Down Converter Has Transformer-Isolated Feedback |
| MAX622 | High-Power Voltage Regulator Has Low Dropout Voltage |
| APP NOTES FOR: Cable Modem/Satellite TV |
| MAX5035 | How to Generate Auxiliary Supplies from a Positive Buck DC-DC Converter |
| MAX1964 MAX1865 MAX1864 MAX8513 MAX1965 MAX8514 | Noise Reduction for the MAX1864 Auxiliary Regulator |
| MAX5072 | 2.2MHz Buck or Boost Power Supply for ADSL2+ Chipset |
| MAX1847 MAX1846 | Compensation Calculator for the MAX1846/MAX1847 Inverting DC-DC Converters |
| MAX8537 | 3mm-Tall, Dual-Phase, Step-Down, DC-DC Converter Delivers 1.6V at 20A from 12V for Mobile Processor Cores |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| MAX1932 | Choosing the MAX1932 External Inductor, Diode, Current-Sense Resistor, and Output Filter Capacitors for Worst-Case Conditions |
| MAX1945 | Small Footprint, 10us Response Time, 10mV Output Ripple, 1MHz, 6A Step-Down Regulator |
| MAX1967 | MAX1967 Efficiency Improvement with 3.3V Input |
| MAX1703 | DC-to-DC Converter Combats EMI |
| MAX770 MAX845 | 5V Step-Down Converter Has Transformer-Isolated Feedback |
| | Input and Output Noise in Buck Converters Explained |
| MAX622 | High-Power Voltage Regulator Has Low Dropout Voltage |
| MAX1771 | Negative Buck Regulator Employs Step-Up Controller |
| MAX1792 MAX689 MAX688 MAX8867 MAX687 MAX8875 | Improved Power Supply Rejection For IC Linear Regulators |
| MAX1856 | Selection of Ultra-Fast Recovery Diodes Used in Flyback Circuits |
| MAX1856 | Snubber Circuits Suppress Voltage Transient Spikes in Multiple Output DC-DC Flyback Converter Power Supplies |
| MAX1964 MAX1965 | Multiple Output Power Supplies with Output Sequencing |
| MAX6125 MAX6150 | Miniature, Precision Negative Reference Requires No Precision Resistors |
| MAX1864 MAX1865 | The MAX1864/MAX1865 Compensation Calculator |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| MAX1760 MAX1692 | Maxim's Integrated Power Supplies Provides a Highly Reliable and Space-Saving Approach to Post-Regulators |
| MAX4130 MAX668 | +12V Input Converter Generates -165V at 100mA |
| MAX4130 MAX668 | 5V Input Converter Generates -30V at 80mA |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| MAX1683 | Tripler Converts 5V to 15V |
| MAX1626 | Miniature Temperature Monitors Drive 3-Speed Fan Controller |
| MAX5025 DS1845 | Step-Up DC-DC Converter Calibration and Adjustment Using a Digital Potentiometer |
| APP NOTES FOR: Cell Phone |
| MAX8515 MAX4263 | Simplified Lithium-Ion (Li+) Battery-Charger Testing |
| MAX8671X | Simplify the Design of 1-Cell Li+ Battery-Operated Devices |
| DS2786 | Programming and Testing a DS2786-Based Circuit |
| DS2786 | Interpreting the Open-Circuit-Voltage (OCV) Fuel Gauge of the DS2786 |
| MAX8560 | Buck Converters Proliferate in Handhelds as Features and Processing Power Increase |
| MAX1576 | Circuit Board Layout Guidelines for White LED Charge Pumps |
| MAX8507 MAX8506 MAX8508 | RF Power Reduction for CDMA/WCDMA Cellular Phones |
| MAX1561 MAX1910 MAX1848 MAX1570 | Why Drive White LEDs with Constant Current? |
| MAX1573 MAX1561 | White-LED Boost Converter vs. Charge Pump |
| MAX8881 MAX1874 MAX1555 MAX1692 MAX1722 | Charging Batteries Using USB Power |
| MAX1502 MAX1582 | Selecting Power Management for Cellular Handsets |
| MAX1916 MAX1912 MAX1848 | Standard and White LED Basics and Operation |
| MAX8863 | LDO Improves White LED Current Matching |
| | Technology Changes: From a Portable Power Point of View |
| MAX871 | Triple Capacitive Voltage Inverter with the MAX871 |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX1848 | Powering Six White LEDs with High Efficiency Using the MAX1848 |
| MAX1848 | Powering Four White LEDs with High Efficiency Using the MAX1848 |
| MAX1820 | W-CDMA Power Supply Dramatically Improves Transmit Efficiency |
| MAX757 | Power-Boost Circuit Powers Cellular Handset |
| MAX1703 | Uninterruptible Power Supply for USB Devices |
| MAX1734 | Using Ceramic Output Capacitors with the MAX1734 Voltage-Mode Buck Converter |
| | Life with Batteries - Don't Ignore Typical Specs |
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| MAX8863 | LDO Linear Regulator Improves White LED Brightness Matching |
| MAX6439 MAX6427 MAX923 MAX667 | Low Battery Monitor Delays System Shutdown |
| MAX1970 | Dual 600mA Buck Converter for Logic Supply and Core Supply at 1V or Less |
| MAX8877 MAX8887 MAX8890 MAX8885 MAX8882 MAX8878 MAX8881 MAX1726 MAX8873 MAX8874 MAX8875 MAX8880 MAX1725 | Selecting LDO Linear Regulators for Cellphone Designs |
| MAX1879 | Single-Cell Li+ Cradle Charger With A Linear AC Adapter |
| MAX1792 MAX689 MAX688 MAX8867 MAX687 MAX8875 | Improved Power Supply Rejection For IC Linear Regulators |
| MAX749 MAX849 MAX882 MAX603 MAX8863 MAX8865 MAX604 MAX883 | Linear Regulators in Portable Applications |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| APP NOTES FOR: Desktop PC/Server |
| MAX5060 | Reference Design for a High-Current Power Supply with Lossless Current Sensing Using the MAX5060 |
| MAX8809A MAX8810A | Meeting the Challenges of Power-Supply Design for Modern, High-Current CPUs |
| MAX8505 | High-Efficiency DC-DC Converter Fits LDO Footprint |
| | Integrated DC-DC Converters Save Space and Design Time in Distributed-Power Systems |
| MAX1937 | Compact-Footprint, 60A, Two-Phase Power Supply for AMD K8 Motherboards |
| MAX1917 | MAX1917 Provides Pre-Bias Soft Start for Redundant Supply |
| MAX8537 | 3mm-Tall, Dual-Phase, Step-Down, DC-DC Converter Delivers 1.6V at 20A from 12V for Mobile Processor Cores |
| MAX1938 MAX1939 MAX1937 MAX4477 | Convert the MAX1937/8/9 from Latch Off Mode to Hiccup Mode Under Short Circuit Condition |
| MAX1864 | DDR Memory-Termination Supply |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| MAX4271 max4370 | Flexible Hot-Swap Current Limiter Allows Thermal Protection |
| MAX1945 | Small Footprint, 10us Response Time, 10mV Output Ripple, 1MHz, 6A Step-Down Regulator |
| MAX1957 | Power Supply for DDR-SDRAM Termination Operates From 3V to 5.5V Input |
| MAX4372 | High-Accuracy Current-Sense Amplifier Enables Current Sensing and Current Sharing |
| MAX1967 | MAX1967 Efficiency Improvement with 3.3V Input |
| MAX4130 MAX1637 | DDR Memory-Termination Supply |
| MAX1718 | Small Capacitor Improves Efficiency in High-Power CPU Supply |
| MAX1917 | VDDQ Supply for Server DDR Memory Using PWM Step-Down Controller |
| MAX1953 | Design of Graphic Chip and Related Circuitry Power Supplies Using MAX1953 1MHz PWM Step-down Controller |
| MAX1917 | Adding Voltage Droop to DDR Memory Termination Voltage Supply Reduces Output Capacitance |
| | Input and Output Noise in Buck Converters Explained |
| MAX622 | High-Power Voltage Regulator Has Low Dropout Voltage |
| MAX797 MAX495 | Synchronous Buck-Regulator Output Terminates High-Speed Data |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| | Turnkey Power-Supply Solutions Power Pentium® Pro µPs |
| | Power Supplies for Pentium, PowerPC, and Beyond |
| MAX709 MAX720 | 5V, Non-Interruptible Power Supply Delivers 1A |
| | Comparing the I²C Bus to the SMBus |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| MAX668 | 3.3V Supply Taps Power from the -12V PCI Bus |
| MAX1626 | Miniature Temperature Monitors Drive 3-Speed Fan Controller |
| APP NOTES FOR: Digital Camera |
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| MAX8671X | Simplify the Design of 1-Cell Li+ Battery-Operated Devices |
| DS2786 | Programming and Testing a DS2786-Based Circuit |
| DS2786 | Interpreting the Open-Circuit-Voltage (OCV) Fuel Gauge of the DS2786 |
| MAX8560 | Buck Converters Proliferate in Handhelds as Features and Processing Power Increase |
| MAX1576 | Circuit Board Layout Guidelines for White LED Charge Pumps |
| MAX1561 MAX1910 MAX1848 MAX1570 | Why Drive White LEDs with Constant Current? |
| MAX1573 MAX1561 | White-LED Boost Converter vs. Charge Pump |
| MAX8881 MAX1874 MAX1555 MAX1692 MAX1722 | Charging Batteries Using USB Power |
| MAX1566 MAX1567 | High-Level Integration Needed for Compact Digital-Camera Power |
| MAX1916 MAX1912 MAX1848 | Standard and White LED Basics and Operation |
| MAX8863 | LDO Improves White LED Current Matching |
| | Technology Changes: From a Portable Power Point of View |
| MAX871 | Triple Capacitive Voltage Inverter with the MAX871 |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX1848 | Powering Six White LEDs with High Efficiency Using the MAX1848 |
| MAX1848 | Powering Four White LEDs with High Efficiency Using the MAX1848 |
| MAX1802 | Simple Current Source Determines the MAX1802 Auxiliary Controller Switching Frequency |
| MAX1703 | Uninterruptible Power Supply for USB Devices |
| MAX1734 | Using Ceramic Output Capacitors with the MAX1734 Voltage-Mode Buck Converter |
| | Life with Batteries - Don't Ignore Typical Specs |
| | SEPIC Equations and Component Ratings
|
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| MAX8863 | LDO Linear Regulator Improves White LED Brightness Matching |
| MAX6439 MAX6427 MAX923 MAX667 | Low Battery Monitor Delays System Shutdown |
| MAX1970 | Dual 600mA Buck Converter for Logic Supply and Core Supply at 1V or Less |
| MAX1879 | Single-Cell Li+ Cradle Charger With A Linear AC Adapter |
| MAX749 MAX849 MAX882 MAX603 MAX8863 MAX8865 MAX604 MAX883 | Linear Regulators in Portable Applications |
| MAX1692 | All-Ceramic 320mA Step-Down Converter for USB |
| MAX1800 MAX668 | Step-up Converter with LDO Beats SEPIC Efficiency |
| MAX1683 | Tripler Converts 5V to 15V |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| APP NOTES FOR: Fiber Module |
| MAX15031 | Power Supply and Accurate Current Monitor for Avalanche Photodiode (APD) Biasing Applications |
| MAX1932 | Avalanche-Photodiode Detector Circuit Limits Current to 1mA and Improves Transient Response |
| MAX8521 MAX8520 | Stabilizing Thermoelectric Controller (TEC) Loops Using a Unit-Step Response |
| MAX4328 MAX5144 MAX8521 MAX8520 | Compact DWDM laser Temperature Control with the MAX8521 |
| MAX5026 MAX5304 MAX6102 | Low-Noise APD Bias Circuit |
| MAX5025 | High-V DC-DC Converter Is Ideal for MEMS (Warning: High-Voltage Circuit) |
| MAX668 MAX1605 | Small, High-Voltage Boost Converters |
| MAX1953 | One Megahertz Adaptable Power Supply Meets XENPAK MSA Specification
|
| MAX6125 MAX6150 | Miniature, Precision Negative Reference Requires No Precision Resistors |
| MAX4130 MAX668 | +12V Input Converter Generates -165V at 100mA |
| APP NOTES FOR: LCD/Flat Panel/Backlight/Display |
| MAX15005B | Vacuum Fluorescent Display (VFD) Reference Design for Automotive Applications |
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| DS3988 DS3984 | DS3984/DS3988 Common Lamp Return
|
| MAX1964 MAX1865 MAX1864 MAX8513 MAX1965 MAX8514 | Noise Reduction for the MAX1864 Auxiliary Regulator |
| MAX16801B MAX16802B MAX16801A MAX16802A | Design of a Nonisolated, Flyback LED Driver Circuit |
| MAX1847 MAX1846 | Compensation Calculator for the MAX1846/MAX1847 Inverting DC-DC Converters |
| DS3984 DS3988 | Design Challenges for Backlighting LCD TVs |
| MAX1576 | Circuit Board Layout Guidelines for White LED Charge Pumps |
| MAX1573 MAX1561 | White-LED Boost Converter vs. Charge Pump |
| MAX1916 MAX1912 MAX1848 | Standard and White LED Basics and Operation |
| | Technology Changes: From a Portable Power Point of View |
| MAX871 | Triple Capacitive Voltage Inverter with the MAX871 |
| MAX1677 | Regulated Dual Voltages Control STN-LCD Contrast |
| MAX1932 | Choosing the MAX1932 External Inductor, Diode, Current-Sense Resistor, and Output Filter Capacitors for Worst-Case Conditions |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX1848 | Powering Six White LEDs with High Efficiency Using the MAX1848 |
| MAX1848 | Powering Four White LEDs with High Efficiency Using the MAX1848 |
| MAX1967 | MAX1967 Efficiency Improvement with 3.3V Input |
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| MAX8863 | LDO Linear Regulator Improves White LED Brightness Matching |
| MAX856 | Single-Cell Boost Converter Generates Auxiliary Bias For LCD |
| MAX1856 | Selection of Ultra-Fast Recovery Diodes Used in Flyback Circuits |
| MAX1605 MAX629 | Using Thermistors in Temperature Tracking Power Supplies |
| MAX1683 | Tripler Converts 5V to 15V |
| MAX5025 DS1845 | Step-Up DC-DC Converter Calibration and Adjustment Using a Digital Potentiometer |
| MAX774 | DC-DC Switch-Mode Power-Supply Controller Drives Regulated Charge Pump |
| APP NOTES FOR: Network/Telecom/WLAN |
| MAX5035 | How to Generate Auxiliary Supplies from a Positive Buck DC-DC Converter |
| MAX1847 MAX1846 | Compensation Calculator for the MAX1846/MAX1847 Inverting DC-DC Converters |
| MAX5074 | MAX5074 5V, 3A Reference Design |
| MAX8505 | High-Efficiency DC-DC Converter Fits LDO Footprint |
| | Integrated DC-DC Converters Save Space and Design Time in Distributed-Power Systems |
| MAX1917 | MAX1917 Provides Pre-Bias Soft Start for Redundant Supply |
| MAX4328 MAX5144 MAX8521 MAX8520 | Compact DWDM laser Temperature Control with the MAX8521 |
| MAX8537 | 3mm-Tall, Dual-Phase, Step-Down, DC-DC Converter Delivers 1.6V at 20A from 12V for Mobile Processor Cores |
| MAX8540 | 50W Current-Mode Forward Converter Design with the MAX8540 |
| MAX8541 | 50W Voltage-Mode Forward Converter Design with the MAX8541 |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| MAX5026 MAX5304 MAX6102 | Low-Noise APD Bias Circuit |
| MAX6138 MAX1683 | Simple Circuit Provides +5V Gate Bias From -48V Input |
| MAX4271 max4370 | Flexible Hot-Swap Current Limiter Allows Thermal Protection |
| MAX1945 | Small Footprint, 10us Response Time, 10mV Output Ripple, 1MHz, 6A Step-Down Regulator |
| MAX1771 MAX1771 | Off-The-Shelf Transformer Limits Capacitor Inrush Current |
| MAX4372 | High-Accuracy Current-Sense Amplifier Enables Current Sensing and Current Sharing |
| MAX1856 | Flyback Transformer Design for MAX1856 SLIC Power Supplies |
| MAX1967 | MAX1967 Efficiency Improvement with 3.3V Input |
| MAX668 | Isolated SLIC Supply |
| MAX1703 | DC-to-DC Converter Combats EMI |
| MAX5022 MAX5021 | Designing Compact Telecom Power Supplies |
| MAX770 MAX845 | 5V Step-Down Converter Has Transformer-Isolated Feedback |
| | Input and Output Noise in Buck Converters Explained |
| MAX828 | Tiny Charge Pump Provides Highly Reliable Low-Cost Solution to Negative Reference Voltage |
| MAX1771 | Negative Buck Regulator Employs Step-Up Controller |
| MAX668 | SLIC Power-Supply Design |
| MAX1792 MAX689 MAX688 MAX8867 MAX687 MAX8875 | Improved Power Supply Rejection For IC Linear Regulators |
| MAX1856 | Snubber Circuits Suppress Voltage Transient Spikes in Multiple Output DC-DC Flyback Converter Power Supplies |
| MAX6125 MAX6150 | Miniature, Precision Negative Reference Requires No Precision Resistors |
| MAX1864 MAX1865 | The MAX1864/MAX1865 Compensation Calculator |
| MAX5003 | Isolated Power Supply Is Suitable For Telecom/Datacom Applications |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| MAX709 MAX720 | 5V, Non-Interruptible Power Supply Delivers 1A |
| MAX721 | Low-Power IC Converts -48V to 5V Without Transformer |
| MAX1760 MAX1692 | Maxim's Integrated Power Supplies Provides a Highly Reliable and Space-Saving Approach to Post-Regulators |
| MAX4130 MAX668 | 5V Input Converter Generates -30V at 80mA |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| MAX668 | Dual-Output SLIC Supply Shares Feedback |
| MAX1638 | Power Supplies for Telecom Systems |
| MAX1705 MAX4172 | Wireless-Modem Power for Hand-Held Devices |
| MAX1626 | Miniature Temperature Monitors Drive 3-Speed Fan Controller |
| MAX845 MAX667 | LAN Power Supply Generates Isolated 9V |
| APP NOTES FOR: Notebook Computer |
| MAX8809A MAX8810A | Meeting the Challenges of Power-Supply Design for Modern, High-Current CPUs |
| MAX1677 | Regulated Dual Voltages Control STN-LCD Contrast |
| MAX1864 | DDR Memory-Termination Supply |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| MAX1945 | Small Footprint, 10us Response Time, 10mV Output Ripple, 1MHz, 6A Step-Down Regulator |
| MAX1957 | Power Supply for DDR-SDRAM Termination Operates From 3V to 5.5V Input |
| MAX668 | Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices |
| | Life with Batteries - Don't Ignore Typical Specs |
| | SEPIC Equations and Component Ratings
|
| MAX1953 | Design of Graphic Chip and Related Circuitry Power Supplies Using MAX1953 1MHz PWM Step-down Controller |
| MAX797 MAX495 | Synchronous Buck-Regulator Output Terminates High-Speed Data |
| MAX1792 MAX689 MAX688 MAX8867 MAX687 MAX8875 | Improved Power Supply Rejection For IC Linear Regulators |
| MAX749 MAX849 MAX882 MAX603 MAX8863 MAX8865 MAX604 MAX883 | Linear Regulators in Portable Applications |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX1926 MAX1640 MAX1547 MAX846A MAX745 MAX2003 MAX713 MAX1548 MAX2003A MAX712 | How to Design Battery Charger Applications that Require External Microcontrollers and Related System-Level Issues |
| | Turnkey Power-Supply Solutions Power Pentium® Pro µPs |
| | Power Supplies for Pentium, PowerPC, and Beyond |
| MAX1692 | All-Ceramic 320mA Step-Down Converter for USB |
| | Comparing the I²C Bus to the SMBus |
| MAX668 | 3.3V Supply Taps Power from the -12V PCI Bus |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| MAX1626 | Miniature Temperature Monitors Drive 3-Speed Fan Controller |
| APP NOTES FOR: Other |
| MAX1556 | An Efficiency Primer for Switch-Mode, DC-DC Converter Power Supplies |
| MAX1960 | Line and Load Transient Testing for Power Supplies |
| MAX8546 | Simple PSPICE Model Predicts MAX8546 Stability and Transient Response |
| MAX1954A | An Accurate Control Loop Model for Current-Mode Step-Down Controllers |
| | Injection Transformers for Closed-Loop DC-DC Converter Network Analysis |
| MAX6381 MAX6743 MAX6390 MAX6739 MAX6388 MAX6387 MAX6386 MAX5040 MAX6736 MAX6382 MAX6742 MAX6384 MAX5039 MAX6385 MAX6383 MAX6745 MAX6740 MAX6741 MAX6737 MAX6744 MAX6389 MAX6738 | Power-On Reset and Related Supervisory Functions |
| MAX1627 MAX1626 | Source Resistance: The Efficiency Killer in DC-DC Converter Circuits |
| | Basic Switching-Regulator-Layout Techniques |
| MAX739 | Derive 5V From Four AA Cells |
| MAX8632 MAX1932 MAX668 | DC-DC Converter Tutorial |
| MAX1681 | Relay Driver Requires Only 25% Power |
| MAX628 | Simple Circuit Generates Multiple Isolated Supply Voltages |
| | Technology Changes: From a Portable Power Point of View |
| MAX253 MAX667 | Draw 150mW Of Isolated Power From Off-Hook Phone Line |
| MAX761 | -12V to -5V/400mA Regulator Ensures Sequencing With 5V Rail |
| MAX1742 | Building a Power Supply That Works |
| MAX1735 | Pass Transistor Boosts Current from Negative Linear Regulator |
| MAX8863 | External Pass Transistor Lowers Dropout Voltage |
| MAX1864 | Noise Reduction For ADSL Modem Power |
| MAX1737 | Reduce Component Count and Cut Costs by Disabling the MAX1737 Source-Current Loop |
| MAX1954 | Graphics Chip Supply Delivers 1.65V at 26A |
| MAX1896 MAX1973 MAX8863 | USB-Powered DSL Modem Supply |
| MAX5026 | Tracking Power Supply Has Dual Outputs
|
| MAX829 | Voltage-Inverter IC Forms High-Efficiency Rail Splitter |
| MAX1637 | A 3.3V Input Step-Down Converter for CPU Cores |
| MAX1797 | Power Supply From 4-20mA Transmission Line |
| MAX845 | Transformer-Driver IC Controls Bidirectional Switch |
| MAX867 | Boost Controller Drives Buck Converter |
| MAX865 MAX522 MAX552 | DAC-Powered Charge Pump Varies Negative Rail |
| MAX863 MAX770 MAX1771 MAX608 | Simple Change Improves PFM Boost-Controller Efficiency
|
| MAX1771 MAX866 | Supply Generates 5V from Low-Voltage Solar-Cell Power |
| MAX764 | Autotransformer Regulator Inverts 12V to -12V |
| MAX1771 MAX668 | Step-Up Controller Forms Negative Step-Down Regulator |
| | Ultra-Low Resistance Surface Mount Current Shunts |
| MAX5304 MAX6102 MAX3664 MAX5026 MAX3271 | HFAN-03.1.1: Digitally Programmable Low-Noise Avalanche Photo Detector (APD) Bias Circuit |
| MAX1681 | Charge Pump Doubles Negative Voltage |
| | Choosing the Right Power-Supply IC for your Application |
| MAX1682 MAX1681 MAX1697 | Properties of the Charge-Pump Voltage Splitter |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| MAX660 MAX8863 | 5-to-1.8V Converter Works Without Magnetics |
| MAX1044 | High-Frequency Switching IC Powers Portable Telephone |
| MAX752 | Negative Buck Regulator Produces Positive Output |
| MAX668 MAX4130 | 15V Input Converter Generates -185V at 50mA |
| MAX857 | Autotransformer Boosts Maximum VOUT |
| MAX666 | JFET Increases Voltage Rating for Linear Regulator |
| MAX1692 | Current-Limit Circuit for the Buck Regulator |
| | Comparing the I²C Bus to the SMBus |
| MAX1701 | 3.3V Lithium-Ion-Cell Buck/Boost Supply Requires One Inductor |
| MAX638 | 48V-to-5V DC-DC Converter Using MAX638 Switching Step-Down Regulator Borrows Power from Phone Lines |
| MAX641 | Derive 12V From 8V to 15V Input |
| MAX1616 | Emitter-Follower Boosts Linear Regulator's Output Current |
| MAX1627 MAX1706 MAX6311 | Two AA Cells Power Step-Down Regulator and 3.3V Boost |
| MAX608 MAX809L | Switch-Mode Converter Starts With Full Load Connected |
| MAX634 | Negative-Output Boost Regulator Has High Efficiency |
| MAX738 MAX667 | Flyback Winding Adds 12V Output To 5V Buck Regulator |
| MAX638 | Step Down DC-DC Converter Operates as Inverter |
| APP NOTES FOR: PDA/Hand Terminal |
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| MAX8671X | Simplify the Design of 1-Cell Li+ Battery-Operated Devices |
| DS2786 | Programming and Testing a DS2786-Based Circuit |
| DS2786 | Using the DS2786 Battery Fuel Gauge in a 2-Cell Battery Pack |
| DS2786 | Interpreting the Open-Circuit-Voltage (OCV) Fuel Gauge of the DS2786 |
| MAX8560 | Buck Converters Proliferate in Handhelds as Features and Processing Power Increase |
| MAX1576 | Circuit Board Layout Guidelines for White LED Charge Pumps |
| MAX1561 MAX1910 MAX1848 MAX1570 | Why Drive White LEDs with Constant Current? |
| MAX1573 MAX1561 | White-LED Boost Converter vs. Charge Pump |
| MAX8881 MAX1874 MAX1555 MAX1692 MAX1722 | Charging Batteries Using USB Power |
| MAX1916 MAX1912 MAX1848 | Standard and White LED Basics and Operation |
| MAX8863 | LDO Improves White LED Current Matching |
| MAX4402 MAX5222 MAX1774 | DAC Makes Controller Programmable |
| MAX1833 MAX8880 | Step-Up/Step-Down Converter Features Ultra-Low Quiescent Current |
| | Technology Changes: From a Portable Power Point of View |
| MAX1730 MAX660 MAX868 MAX1680 MAX1682 MAX1681 MAX1683 | Doubler/Inverter Charge Pumps Divide by Two |
| MAX871 | Triple Capacitive Voltage Inverter with the MAX871 |
| MAX1677 | Regulated Dual Voltages Control STN-LCD Contrast |
| MAX1811 | Add Current Boost to USB Charger Driven by an AC Adapter |
| MAX761 | Low-Cost Step-Up/Step-Down Converter Accepts 2V to 16V Inputs |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX1683 MAX1615 | Inductorless Voltage Converter Boosts a Single Lithium Cell |
| MAX863 MAX860 | Two AA Cells Power Dual-Supply µP |
| MAX1848 | Powering Six White LEDs with High Efficiency Using the MAX1848 |
| MAX1848 | Powering Four White LEDs with High Efficiency Using the MAX1848 |
| MAX668 | Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices |
| MAX1841 MAX1733 | Parallel-Port Interface Powers Low Voltage Systems |
| MAX1967 | MAX1967 Efficiency Improvement with 3.3V Input |
| MAX1703 | Uninterruptible Power Supply for USB Devices |
| MAX1734 | Using Ceramic Output Capacitors with the MAX1734 Voltage-Mode Buck Converter |
| MAX1703 | High-Power Boost Converter Maintains Light-Load Efficiency |
| | Life with Batteries - Don't Ignore Typical Specs |
| | SEPIC Equations and Component Ratings
|
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX608 | Step-Up/Step-Down Converter Generates 3.3V From Two Or Three Cells |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| MAX8863 | LDO Linear Regulator Improves White LED Brightness Matching |
| MAX1729 MAX1692 MAX1749 MAX1879 | Design Case Study: Designing a Power Supply for a Portable, Wireless Contact Manager |
| MAX5021 MAX1898 | How to Minimize Power Dissipation in Li+ Linear Chargers |
| MAX6439 MAX6427 MAX923 MAX667 | Low Battery Monitor Delays System Shutdown |
| MAX1970 | Dual 600mA Buck Converter for Logic Supply and Core Supply at 1V or Less |
| MAX856 | Switch Allows Low-Voltage Regulator To Start Under Load |
| MAX856 | Single-Cell Boost Converter Generates Auxiliary Bias For LCD |
| MAX1524 MAX608 MAX1705 | Dual Power Supply for Wallcube/Battery-Powered Systems |
| MAX1879 | Single-Cell Li+ Cradle Charger With A Linear AC Adapter |
| MAX1792 MAX689 MAX688 MAX8867 MAX687 MAX8875 | Improved Power Supply Rejection For IC Linear Regulators |
| MAX1605 MAX629 | Using Thermistors in Temperature Tracking Power Supplies |
| MAX749 MAX849 MAX882 MAX603 MAX8863 MAX8865 MAX604 MAX883 | Linear Regulators in Portable Applications |
| MAX1926 MAX1640 MAX1547 MAX846A MAX745 MAX2003 MAX713 MAX1548 MAX2003A MAX712 | How to Design Battery Charger Applications that Require External Microcontrollers and Related System-Level Issues |
| MAX1692 | All-Ceramic 320mA Step-Down Converter for USB |
| MAX1790 | All-Ceramic 200mA Step-Up Converter for USB |
| MAX1800 MAX668 | Step-up Converter with LDO Beats SEPIC Efficiency |
| MAX1683 | Tripler Converts 5V to 15V |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| MAX1705 MAX4172 | Wireless-Modem Power for Hand-Held Devices |
| MAX761 | Three-Input Supply Powers 3.3 Portables |
| MAX667 MAX660 | Regulated Step-Up Converter Provides High Efficiency Without Inductors |
| APP NOTES FOR: Printer/Fax |
| MAX15005A | Reference Design Ensures Dynamic Output Voltages for a Print-Head Power Supply |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| MAX1967 | MAX1967 Efficiency Improvement with 3.3V Input |
| MAX770 MAX845 | 5V Step-Down Converter Has Transformer-Isolated Feedback |
| MAX622 | High-Power Voltage Regulator Has Low Dropout Voltage |
| MAX1856 | Snubber Circuits Suppress Voltage Transient Spikes in Multiple Output DC-DC Flyback Converter Power Supplies |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| APP NOTES FOR: RAID |
| MAX1917 | MAX1917 Provides Pre-Bias Soft Start for Redundant Supply |
| MAX8537 | 3mm-Tall, Dual-Phase, Step-Down, DC-DC Converter Delivers 1.6V at 20A from 12V for Mobile Processor Cores |
| MAX1938 MAX1939 MAX1937 MAX4477 | Convert the MAX1937/8/9 from Latch Off Mode to Hiccup Mode Under Short Circuit Condition |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| MAX4271 max4370 | Flexible Hot-Swap Current Limiter Allows Thermal Protection |
| MAX4372 | High-Accuracy Current-Sense Amplifier Enables Current Sensing and Current Sharing |
| | Input and Output Noise in Buck Converters Explained |
| MAX622 | High-Power Voltage Regulator Has Low Dropout Voltage |
| MAX1856 | Snubber Circuits Suppress Voltage Transient Spikes in Multiple Output DC-DC Flyback Converter Power Supplies |
| MAX6125 MAX6150 | Miniature, Precision Negative Reference Requires No Precision Resistors |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX709 MAX720 | 5V, Non-Interruptible Power Supply Delivers 1A |
| MAX1626 | Miniature Temperature Monitors Drive 3-Speed Fan Controller |
| TOPOLOGY: Boost/Step-Up |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX15005AAUE MAX4407 MAX15005 | Using the MAX15005 Supply and Driver for an LED Application |
| MAX8640 | An Introduction to Switch-Mode Power Supplies |
| MAX8646 | Inductor Choice Yields Performance Tradeoffs in DC-DC Converters |
| MAX5068 MAX5048 MAX8515 MAX9010 | Designing Single-Switch, Resonant-Reset, Forward Converters |
| MAX1846 MAX668 | ±15V or ±12V Output Switch-Mode Power Supply Has Wide Input-Voltage Range |
| MAX1932 | Avalanche-Photodiode Detector Circuit Limits Current to 1mA and Improves Transient Response |
| MAX668 MAX1846 | ±15V Switch-Mode Power Supply Has Wide Input-Voltage Range |
| MAX4162 | Bias Supply Powers Low-Power Geiger-Mueller Tube |
| MAX1763 | High-Power White-LED Driver Operates on 1 or 2 Alkaline Cells |
| MAX4481 MAX6435 MAX1797 | Circuit Enables Single NiMH Cell to Simulate a Lithium Battery |
| MAX16801B MAX16802B MAX16801A MAX16802A | Design of a Nonisolated, Flyback LED Driver Circuit |
| MAX5072 | 2.2MHz Buck or Boost Power Supply for ADSL2+ Chipset |
| MAX1771 MAX5160 | Pushbuttons Control Regulated Switching Converter |
| MAX1796 | High-Efficiency Step-Up Converter Robs Parallel Port |
| | Simple Circuit Generates +3.3V at 1A From -5V |
| MAX1573 MAX1561 | White-LED Boost Converter vs. Charge Pump |
| | Basic Switching-Regulator-Layout Techniques |
| MAX1833 MAX8880 | Step-Up/Step-Down Converter Features Ultra-Low Quiescent Current |
| MAX8632 MAX1932 MAX668 | DC-DC Converter Tutorial |
| MAX761 | -12V to -5V/400mA Regulator Ensures Sequencing With 5V Rail |
| MAX1742 | Building a Power Supply That Works |
| MAX1677 | Regulated Dual Voltages Control STN-LCD Contrast |
| MAX5026 MAX5304 MAX6102 | Low-Noise APD Bias Circuit |
| MAX1932 | Choosing the MAX1932 External Inductor, Diode, Current-Sense Resistor, and Output Filter Capacitors for Worst-Case Conditions |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX6138 MAX1683 | Simple Circuit Provides +5V Gate Bias From -48V Input |
| MAX1683 MAX1615 | Inductorless Voltage Converter Boosts a Single Lithium Cell |
| MAX863 MAX860 | Two AA Cells Power Dual-Supply µP |
| MAX5025 | High-V DC-DC Converter Is Ideal for MEMS (Warning: High-Voltage Circuit) |
| MAX1848 | Powering Six White LEDs with High Efficiency Using the MAX1848 |
| MAX1848 | Powering Four White LEDs with High Efficiency Using the MAX1848 |
| MAX5026 | Tracking Power Supply Has Dual Outputs
|
| MAX1771 MAX1771 | Off-The-Shelf Transformer Limits Capacitor Inrush Current |
| MAX757 | Power-Boost Circuit Powers Cellular Handset |
| MAX921 MAX1771 MAX772 MAX933 MAX660 MAX863 MAX771 MAX471 MAX608 MAX773 MAX770 | Circuit Connection Adds Current-Mode Operation To PFM Boost Converters |
| MAX1797 | Power Supply From 4-20mA Transmission Line |
| MAX1802 | Simple Current Source Determines the MAX1802 Auxiliary Controller Switching Frequency |
| MAX1703 | Uninterruptible Power Supply for USB Devices |
| MAX1703 | High-Power Boost Converter Maintains Light-Load Efficiency |
| MAX668 MAX1605 | Small, High-Voltage Boost Converters |
| MAX1703 | DC-to-DC Converter Combats EMI |
| MAX863 MAX770 MAX1771 MAX608 | Simple Change Improves PFM Boost-Controller Efficiency
|
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX1771 MAX866 | Supply Generates 5V from Low-Voltage Solar-Cell Power |
| MAX1729 MAX1692 MAX1749 MAX1879 | Design Case Study: Designing a Power Supply for a Portable, Wireless Contact Manager |
| MAX761 | Discrete Charge Pump Adds -12V Output to +12V Boost Converter |
| MAX856 | Switch Allows Low-Voltage Regulator To Start Under Load |
| MAX856 | Single-Cell Boost Converter Generates Auxiliary Bias For LCD |
| MAX1524 MAX608 MAX1705 | Dual Power Supply for Wallcube/Battery-Powered Systems |
| MAX1698 MAX1848 | Feedback Circuit Enhances Efficiency of Boost-Converter Current Source |
| MAX1771 | Negative Buck Regulator Employs Step-Up Controller |
| MAX1605 MAX629 | Using Thermistors in Temperature Tracking Power Supplies |
| MAX1681 | Charge Pump Doubles Negative Voltage |
| | Creating a Fast Load Transient |
| | Choosing the Right Power-Supply IC for your Application |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| MAX709 MAX720 | 5V, Non-Interruptible Power Supply Delivers 1A |
| MAX721 | Low-Power IC Converts -48V to 5V Without Transformer |
| MAX1790 | All-Ceramic 200mA Step-Up Converter for USB |
| MAX1760 MAX1692 | Maxim's Integrated Power Supplies Provides a Highly Reliable and Space-Saving Approach to Post-Regulators |
| MAX668 | 3.3V Supply Taps Power from the -12V PCI Bus |
| MAX1638 | Power Supplies for Telecom Systems |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| MAX1705 MAX4172 | Wireless-Modem Power for Hand-Held Devices |
| MAX5025 DS1845 | Step-Up DC-DC Converter Calibration and Adjustment Using a Digital Potentiometer |
| MAX771 | Boost DC-DC Voltage Regulator Converts To Current Source for Battery Charging |
| MAX667 MAX660 | Regulated Step-Up Converter Provides High Efficiency Without Inductors |
| TOPOLOGY: Buck-Boost/Step Up-Down |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX5060 | Reference Design for a High-Current Power Supply with Lossless Current Sensing Using the MAX5060 |
| MAX15031 | Power Supply and Accurate Current Monitor for Avalanche Photodiode (APD) Biasing Applications |
| MAX15005A | Reference Design Ensures Dynamic Output Voltages for a Print-Head Power Supply |
| MAX8815 MAX9938H | Low-Loss LED Driver Improves a System's Green Footprint by Boosting Efficiency and Extending Battery Life
|
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| MAX8640 | An Introduction to Switch-Mode Power Supplies |
| DS1090 MAX6496 MAX5061 MAX5060 | DC-DC Controllers Use Average-Current-Mode Control for Infotainment Applications |
| MAX5072 | 2.2MHz Buck or Boost Power Supply for ADSL2+ Chipset |
| MAX774 | High-Power LED Driver Accepts Wide Input-Voltage Range |
| MAX1576 | Circuit Board Layout Guidelines for White LED Charge Pumps |
| MAX4328 MAX5144 MAX8521 MAX8520 | Compact DWDM laser Temperature Control with the MAX8521 |
| MAX739 | Derive 5V From Four AA Cells |
| MAX1833 MAX8880 | Step-Up/Step-Down Converter Features Ultra-Low Quiescent Current |
| MAX1742 | Building a Power Supply That Works |
| MAX1523 MAX1806 MAX1845 MAX1857 MAX1844 MAX1634 MAX1745 MAX1763 MAX868 MAX8881 MAX1904 | Choosing the Right DC-DC Converter for Automotive Applications |
| MAX761 | Low-Cost Step-Up/Step-Down Converter Accepts 2V to 16V Inputs |
| MAX668 | Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices |
| MAX1703 | DC-to-DC Converter Combats EMI |
| | SEPIC Equations and Component Ratings
|
| MAX608 | Step-Up/Step-Down Converter Generates 3.3V From Two Or Three Cells |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| | Creating a Fast Load Transient |
| | Choosing the Right Power-Supply IC for your Application |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| MAX1800 MAX668 | Step-up Converter with LDO Beats SEPIC Efficiency |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| MAX761 | Three-Input Supply Powers 3.3 Portables |
| TOPOLOGY: Buck/Step-Down |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX15026 | Reference Design Using the MAX15026 for an Auxiliary Power Supply for LCD TVs or Set-Top Boxes |
| MAX1556 | An Efficiency Primer for Switch-Mode, DC-DC Converter Power Supplies |
| MAX8671X | Simplify the Design of 1-Cell Li+ Battery-Operated Devices |
| MAX5066 | Reference Design Using the MAX5066 for a High Performance Application |
| MAX8640 | An Introduction to Switch-Mode Power Supplies |
| MAX5068 MAX5048 MAX8515 MAX9010 | Designing Single-Switch, Resonant-Reset, Forward Converters |
| DS1090 MAX6496 MAX5061 MAX5060 | DC-DC Controllers Use Average-Current-Mode Control for Infotainment Applications |
| MAX8809A MAX8810A | Meeting the Challenges of Power-Supply Design for Modern, High-Current CPUs |
| MAX1714 | Thermistor Linearizes Current Limit |
| MAX5035 | How to Generate Auxiliary Supplies from a Positive Buck DC-DC Converter |
| MAX1964 MAX1865 MAX1864 MAX8513 MAX1965 MAX8514 | Noise Reduction for the MAX1864 Auxiliary Regulator |
| MAX5035 MAX5033 MAX16802 MAX16801 | High-Efficiency Current Drive for High-Brightness LEDs |
| MAX5072 | 2.2MHz Buck or Boost Power Supply for ADSL2+ Chipset |
| MAX1864 | Adding a Watchdog to a Dual-Output Power Supply |
| MAX8560 | Buck Converters Proliferate in Handhelds as Features and Processing Power Increase |
| MAX5074 | MAX5074 5V, 3A Reference Design |
| MAX8505 | High-Efficiency DC-DC Converter Fits LDO Footprint |
| | Integrated DC-DC Converters Save Space and Design Time in Distributed-Power Systems |
| MAX1937 | Compact-Footprint, 60A, Two-Phase Power Supply for AMD K8 Motherboards |
| MAX8546 | Simple PSPICE Model Predicts MAX8546 Stability and Transient Response |
| MAX1954A | An Accurate Control Loop Model for Current-Mode Step-Down Controllers |
| MAX8507 MAX8506 MAX8508 | RF Power Reduction for CDMA/WCDMA Cellular Phones |
| MAX1917 | MAX1917 Provides Pre-Bias Soft Start for Redundant Supply |
| | Buck Regulator Forms High-Power Inverting -5V Supply |
| MAX8537 | 3mm-Tall, Dual-Phase, Step-Down, DC-DC Converter Delivers 1.6V at 20A from 12V for Mobile Processor Cores |
| MAX1502 MAX1582 | Selecting Power Management for Cellular Handsets |
| | Basic Switching-Regulator-Layout Techniques |
| MAX4402 MAX5222 MAX1774 | DAC Makes Controller Programmable |
| MAX8632 MAX1932 MAX668 | DC-DC Converter Tutorial |
| MAX1938 MAX1939 MAX1937 MAX4477 | Convert the MAX1937/8/9 from Latch Off Mode to Hiccup Mode Under Short Circuit Condition |
| MAX1742 | Building a Power Supply That Works |
| MAX1653 | Increase the Power of a Buck (Step-Down) Switching Power Supply IC |
| MAX1864 | DDR Memory-Termination Supply |
| MAX1523 MAX1806 MAX1845 MAX1857 MAX1844 MAX1634 MAX1745 MAX1763 MAX868 MAX8881 MAX1904 | Choosing the Right DC-DC Converter for Automotive Applications |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| MAX1945 | Small Footprint, 10us Response Time, 10mV Output Ripple, 1MHz, 6A Step-Down Regulator |
| MAX1957 | Power Supply for DDR-SDRAM Termination Operates From 3V to 5.5V Input |
| MAX1820 | W-CDMA Power Supply Dramatically Improves Transmit Efficiency |
| MAX4372 | High-Accuracy Current-Sense Amplifier Enables Current Sensing and Current Sharing |
| MAX1841 MAX1733 | Parallel-Port Interface Powers Low Voltage Systems |
| MAX1967 | MAX1967 Efficiency Improvement with 3.3V Input |
| MAX4130 MAX1637 | DDR Memory-Termination Supply |
| MAX1802 | Simple Current Source Determines the MAX1802 Auxiliary Controller Switching Frequency |
| MAX1718 | Small Capacitor Improves Efficiency in High-Power CPU Supply |
| MAX1734 | Using Ceramic Output Capacitors with the MAX1734 Voltage-Mode Buck Converter |
| MAX1703 | DC-to-DC Converter Combats EMI |
| MAX5022 MAX5021 | Designing Compact Telecom Power Supplies |
| MAX1917 | VDDQ Supply for Server DDR Memory Using PWM Step-Down Controller |
| MAX1953 | One Megahertz Adaptable Power Supply Meets XENPAK MSA Specification
|
| MAX1953 | Design of Graphic Chip and Related Circuitry Power Supplies Using MAX1953 1MHz PWM Step-down Controller |
| MAX1729 MAX1692 MAX1749 MAX1879 | Design Case Study: Designing a Power Supply for a Portable, Wireless Contact Manager |
| MAX770 MAX845 | 5V Step-Down Converter Has Transformer-Isolated Feedback |
| MAX1917 | Adding Voltage Droop to DDR Memory Termination Voltage Supply Reduces Output Capacitance |
| | Input and Output Noise in Buck Converters Explained |
| MAX5021 MAX1898 | How to Minimize Power Dissipation in Li+ Linear Chargers |
| MAX1970 | Dual 600mA Buck Converter for Logic Supply and Core Supply at 1V or Less |
| MAX1771 MAX668 | Step-Up Controller Forms Negative Step-Down Regulator |
| MAX1771 | Negative Buck Regulator Employs Step-Up Controller |
| MAX797 MAX495 | Synchronous Buck-Regulator Output Terminates High-Speed Data |
| MAX1964 MAX1965 | Multiple Output Power Supplies with Output Sequencing |
| MAX1864 MAX1865 | The MAX1864/MAX1865 Compensation Calculator |
| | Creating a Fast Load Transient |
| | Choosing the Right Power-Supply IC for your Application |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| | Turnkey Power-Supply Solutions Power Pentium® Pro µPs |
| MAX660 MAX8863 | 5-to-1.8V Converter Works Without Magnetics |
| | Power Supplies for Pentium, PowerPC, and Beyond |
| MAX752 | Negative Buck Regulator Produces Positive Output |
| MAX1692 | All-Ceramic 320mA Step-Down Converter for USB |
| MAX1692 | Current-Limit Circuit for the Buck Regulator |
| MAX1760 MAX1692 | Maxim's Integrated Power Supplies Provides a Highly Reliable and Space-Saving Approach to Post-Regulators |
| MAX1638 | Power Supplies for Telecom Systems |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| MAX1626 | Miniature Temperature Monitors Drive 3-Speed Fan Controller |
| MAX738 MAX667 | Flyback Winding Adds 12V Output To 5V Buck Regulator |
| TOPOLOGY: Charge Pump |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| MAX5035 | How to Generate Auxiliary Supplies from a Positive Buck DC-DC Converter |
| MAX889 | Simple Circuit Converts +5V to -10V |
| MAX1681 | Charge Pump Converts -5V to +5V |
| MAX1576 | Circuit Board Layout Guidelines for White LED Charge Pumps |
| MAX1573 MAX1561 | White-LED Boost Converter vs. Charge Pump |
| MAX1683 MAX8863 | 5V Auxiliary Power Supply Teams LDO and Charge Pump |
| MAX1730 MAX660 MAX868 MAX1680 MAX1682 MAX1681 MAX1683 | Doubler/Inverter Charge Pumps Divide by Two |
| MAX871 | Triple Capacitive Voltage Inverter with the MAX871 |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX6138 MAX1683 | Simple Circuit Provides +5V Gate Bias From -48V Input |
| MAX5025 | High-V DC-DC Converter Is Ideal for MEMS (Warning: High-Voltage Circuit) |
| MAX5026 | Tracking Power Supply Has Dual Outputs
|
| MAX829 | Voltage-Inverter IC Forms High-Efficiency Rail Splitter |
| MAX865 MAX522 MAX552 | DAC-Powered Charge Pump Varies Negative Rail |
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| MAX761 | Discrete Charge Pump Adds -12V Output to +12V Boost Converter |
| MAX6125 MAX6150 | Miniature, Precision Negative Reference Requires No Precision Resistors |
| MAX1681 | Charge Pump Doubles Negative Voltage |
| | Creating a Fast Load Transient |
| | Choosing the Right Power-Supply IC for your Application |
| MAX1682 MAX1681 MAX1697 | Properties of the Charge-Pump Voltage Splitter |
| MAX660 MAX8863 | 5-to-1.8V Converter Works Without Magnetics |
| MAX1044 | High-Frequency Switching IC Powers Portable Telephone |
| MAX1683 | Tripler Converts 5V to 15V |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| MAX774 | DC-DC Switch-Mode Power-Supply Controller Drives Regulated Charge Pump |
| TOPOLOGY: Current Sensing |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX4172 | High-Side Current-Sense Amplifier Operates at High Voltage |
| MAX4372 | High-Accuracy Current-Sense Amplifier Enables Current Sensing and Current Sharing |
| MAX1698 MAX1848 | Feedback Circuit Enhances Efficiency of Boost-Converter Current Source |
| MAX1692 | Current-Limit Circuit for the Buck Regulator |
| TOPOLOGY: Flyback/Isolated/Transformer |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX15005B | Vacuum Fluorescent Display (VFD) Reference Design for Automotive Applications |
| MAX5068 MAX5048 MAX8515 MAX9010 | Designing Single-Switch, Resonant-Reset, Forward Converters |
| MAX5035 | How to Generate Auxiliary Supplies from a Positive Buck DC-DC Converter |
| MAX16801B MAX16802B MAX16801A MAX16802A | Design of a Nonisolated, Flyback LED Driver Circuit |
| MAX5074 | MAX5074 5V, 3A Reference Design |
| MAX739 | Derive 5V From Four AA Cells |
| MAX8540 | 50W Current-Mode Forward Converter Design with the MAX8540 |
| MAX8541 | 50W Voltage-Mode Forward Converter Design with the MAX8541 |
| MAX8632 MAX1932 MAX668 | DC-DC Converter Tutorial |
| MAX1742 | Building a Power Supply That Works |
| MAX1771 MAX1771 | Off-The-Shelf Transformer Limits Capacitor Inrush Current |
| MAX1856 | Flyback Transformer Design for MAX1856 SLIC Power Supplies |
| MAX668 | Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices |
| MAX668 | Isolated SLIC Supply |
| MAX845 | Transformer-Driver IC Controls Bidirectional Switch |
| MAX1703 | DC-to-DC Converter Combats EMI |
| MAX5022 MAX5021 | Designing Compact Telecom Power Supplies |
| MAX764 | Autotransformer Regulator Inverts 12V to -12V |
| MAX770 MAX845 | 5V Step-Down Converter Has Transformer-Isolated Feedback |
| MAX5021 MAX1898 | How to Minimize Power Dissipation in Li+ Linear Chargers |
| MAX856 | Single-Cell Boost Converter Generates Auxiliary Bias For LCD |
| MAX668 | SLIC Power-Supply Design |
| MAX1856 | Selection of Ultra-Fast Recovery Diodes Used in Flyback Circuits |
| MAX1856 | Snubber Circuits Suppress Voltage Transient Spikes in Multiple Output DC-DC Flyback Converter Power Supplies |
| MAX5003 | Isolated Power Supply Is Suitable For Telecom/Datacom Applications |
| | Creating a Fast Load Transient |
| | Choosing the Right Power-Supply IC for your Application |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| MAX4173 MAX471 | Isolated Power Supplies for Telecom Applications |
| MAX1760 MAX1692 | Maxim's Integrated Power Supplies Provides a Highly Reliable and Space-Saving Approach to Post-Regulators |
| MAX4130 MAX668 | +12V Input Converter Generates -165V at 100mA |
| MAX4130 MAX668 | 5V Input Converter Generates -30V at 80mA |
| MAX668 | Dual-Output SLIC Supply Shares Feedback |
| MAX1638 | Power Supplies for Telecom Systems |
| MAX845 MAX667 | LAN Power Supply Generates Isolated 9V |
| MAX738 MAX667 | Flyback Winding Adds 12V Output To 5V Buck Regulator |
| TOPOLOGY: Inverter/Negative Output |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX1846 MAX668 | ±15V or ±12V Output Switch-Mode Power Supply Has Wide Input-Voltage Range |
| | Making a Voltage Inverter from a Buck (Step-Down) DC-DC Converter |
| MAX668 MAX1846 | ±15V Switch-Mode Power Supply Has Wide Input-Voltage Range |
| MAX889 | Simple Circuit Converts +5V to -10V |
| MAX1847 MAX1846 | Compensation Calculator for the MAX1846/MAX1847 Inverting DC-DC Converters |
| | Buck Regulator Forms High-Power Inverting -5V Supply |
| MAX739 | Derive 5V From Four AA Cells |
| MAX8632 MAX1932 MAX668 | DC-DC Converter Tutorial |
| MAX761 | -12V to -5V/400mA Regulator Ensures Sequencing With 5V Rail |
| MAX1742 | Building a Power Supply That Works |
| MAX871 | Triple Capacitive Voltage Inverter with the MAX871 |
| MAX1677 | Regulated Dual Voltages Control STN-LCD Contrast |
| MAX5026 | Tracking Power Supply Has Dual Outputs
|
| MAX829 | Voltage-Inverter IC Forms High-Efficiency Rail Splitter |
| MAX1856 | Flyback Transformer Design for MAX1856 SLIC Power Supplies |
| MAX1703 | DC-to-DC Converter Combats EMI |
| MAX865 MAX522 MAX552 | DAC-Powered Charge Pump Varies Negative Rail |
| MAX764 | Autotransformer Regulator Inverts 12V to -12V |
| MAX761 | Discrete Charge Pump Adds -12V Output to +12V Boost Converter |
| MAX828 | Tiny Charge Pump Provides Highly Reliable Low-Cost Solution to Negative Reference Voltage |
| MAX1771 MAX668 | Step-Up Controller Forms Negative Step-Down Regulator |
| MAX1771 | Negative Buck Regulator Employs Step-Up Controller |
| MAX668 | SLIC Power-Supply Design |
| MAX1856 | Selection of Ultra-Fast Recovery Diodes Used in Flyback Circuits |
| MAX6125 MAX6150 | Miniature, Precision Negative Reference Requires No Precision Resistors |
| MAX1681 | Charge Pump Doubles Negative Voltage |
| | Choosing the Right Power-Supply IC for your Application |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| MAX1044 | High-Frequency Switching IC Powers Portable Telephone |
| MAX752 | Negative Buck Regulator Produces Positive Output |
| MAX4130 MAX668 | +12V Input Converter Generates -165V at 100mA |
| MAX4130 MAX668 | 5V Input Converter Generates -30V at 80mA |
| MAX668 | 3.3V Supply Taps Power from the -12V PCI Bus |
| MAX668 | Dual-Output SLIC Supply Shares Feedback |
| MAX1638 | Power Supplies for Telecom Systems |
| MAX774 | DC-DC Switch-Mode Power-Supply Controller Drives Regulated Charge Pump |
| TOPOLOGY: Linear Regulator/LDO |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX1735 MAX1818 | Using a Linear Regulator to Produce a Constant Current Source |
| MAX15007 | Ultra-Low Quiescent-Current Linear Regulator for Automotive Air Bags |
| MAX8640 | An Introduction to Switch-Mode Power Supplies |
| MAX8875 | Single Resistor Provides Extra Current from a Linear Regulator |
| MAX8515 | High-IOUT LDO Regulator Has Excellent Transient Response |
| MAX1964 MAX1865 MAX1864 MAX8513 MAX1965 MAX8514 | Noise Reduction for the MAX1864 Auxiliary Regulator |
| MAX4475 MAX6126 | Ultra-Low-Noise LDO Achieves 6nV/√Hz Noise Performance |
| MAX1857 | Single Transistor Reduces LDO Noise by 46dB |
| MAX1735 | Modified LDO Regulator Sinks PECL-Termination Current |
| MAX1864 | Adding a Watchdog to a Dual-Output Power Supply |
| MAX8560 | Buck Converters Proliferate in Handhelds as Features and Processing Power Increase |
| MAX5024 | Pass Transistor Enhances Regulator's Output Current |
| MAX1683 MAX8863 | 5V Auxiliary Power Supply Teams LDO and Charge Pump |
| MAX1735 | Modified LDO Sinks PECL-Termination Current |
| MAX1502 MAX1582 | Selecting Power Management for Cellular Handsets |
| MAX8863 | LDO Improves White LED Current Matching |
| MAX1833 MAX8880 | Step-Up/Step-Down Converter Features Ultra-Low Quiescent Current |
| MAX8863 | External Pass Transistor Lowers Dropout Voltage |
| MAX6138 MAX1683 | Simple Circuit Provides +5V Gate Bias From -48V Input |
| MAX1683 MAX1615 | Inductorless Voltage Converter Boosts a Single Lithium Cell |
| MAX1703 | Uninterruptible Power Supply for USB Devices |
| MAX8863 | LDO Linear Regulator Improves White LED Brightness Matching |
| MAX622 | High-Power Voltage Regulator Has Low Dropout Voltage |
| MAX6439 MAX6427 MAX923 MAX667 | Low Battery Monitor Delays System Shutdown |
| MAX666 | Increase Regulator Input Voltage |
| MAX1524 MAX608 MAX1705 | Dual Power Supply for Wallcube/Battery-Powered Systems |
| MAX8877 MAX8887 MAX8890 MAX8885 MAX8882 MAX8878 MAX8881 MAX1726 MAX8873 MAX8874 MAX8875 MAX8880 MAX1725 | Selecting LDO Linear Regulators for Cellphone Designs |
| MAX1792 MAX689 MAX688 MAX8867 MAX687 MAX8875 | Improved Power Supply Rejection For IC Linear Regulators |
| MAX1864 MAX1865 | The MAX1864/MAX1865 Compensation Calculator |
| | Creating a Fast Load Transient |
| MAX749 MAX849 MAX882 MAX603 MAX8863 MAX8865 MAX604 MAX883 | Linear Regulators in Portable Applications |
| | Choosing the Right Power-Supply IC for your Application |
| MAX660 MAX8863 | 5-to-1.8V Converter Works Without Magnetics |
| | Power Supplies for Pentium, PowerPC, and Beyond |
| MAX666 | JFET Increases Voltage Rating for Linear Regulator |
| MAX1616 | Emitter-Follower Boosts Linear Regulator's Output Current |
| MAX1638 | Power Supplies for Telecom Systems |
| MAX1705 | Trading Performance for Cost in Portable Power Supplies |
| MAX667 MAX660 | Regulated Step-Up Converter Provides High Efficiency Without Inductors |
| TOPOLOGY: MOSFET Driver |
| MAX6820 | The FET-OR Connection for Power Supplies |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| TOPOLOGY: USB/Hot-Swap/Load Switching |
| MAX3421E MAX4793 MAX3421EVKIT-1 MAX3420E | The Maxim USB Laboratory |
| MAX6820 | The FET-OR Connection for Power Supplies |
| MAX6327 MAX1697 | Simple Circuit Disconnects Load from Low-Voltage Supply |
| MAX1615 MAX4374 | Overcurrent/Overdischarge Protection for Lead-Acid Batteries |
| MAX1614 | MOSFET Driver Is Reverse-Battery Protected |
| MAX1811 | Add Current Boost to USB Charger Driven by an AC Adapter |
| MAX4271 max4370 | Flexible Hot-Swap Current Limiter Allows Thermal Protection |
| MAX668 | Current Limited DC-DC Controller Used as Step-Up Step-Down SEPIC Power Supply for USB Devices |
| MAX1703 | Uninterruptible Power Supply for USB Devices |
| MAX1692 | All-Ceramic 320mA Step-Down Converter for USB |
| MAX1790 | All-Ceramic 200mA Step-Up Converter for USB |
| MAX890L MAX5160 | Current-Limit Switch Is Digitally Programmable |
| MAX761 | Three-Input Supply Powers 3.3 Portables |
| TOPOLOGY: White-LED Power |
| MAX16821 | 6A RGB LED Driver Reference Design for a Portable Projector |
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| MAX16801B MAX16802B MAX16801A MAX16802A | Design of a Nonisolated, Flyback LED Driver Circuit |
| MAX774 | High-Power LED Driver Accepts Wide Input-Voltage Range |
| MAX1576 | Circuit Board Layout Guidelines for White LED Charge Pumps |
| MAX1561 MAX1910 MAX1848 MAX1570 | Why Drive White LEDs with Constant Current? |
| MAX1573 MAX1561 | White-LED Boost Converter vs. Charge Pump |
| MAX1502 MAX1582 | Selecting Power Management for Cellular Handsets |
| MAX1916 MAX1912 MAX1848 | Standard and White LED Basics and Operation |
| MAX8863 | LDO Improves White LED Current Matching |
| MAX4040 MAX1698 | Circuit Drives Mixed Types and Quantities of LEDs |
| MAX1759 MAX682 MAX8596Z MAX1575 MAX8596X MAX1576 MAX1910 MAX1574 MAX1916 MAX8595Z MAX1848 MAX1912 MAX1561 MAX683 MAX684 | Driving LEDs in Battery-Operated Applications: Controlling Brightness Power Efficiently |
| MAX1848 | Powering Six White LEDs with High Efficiency Using the MAX1848 |
| MAX1848 | Powering Four White LEDs with High Efficiency Using the MAX1848 |
| MAX1912 MAX1910 MAX1916 MAX5361 MAX1570 MAX1595 MAX5363 MAX5364 MAX1610 MAX5360 MAX1848 | Charge-Pump and Step-Up DC-DC Converter Solutions for Powering White LEDs in Series or Parallel Connections |
| MAX1759 | Buck/Boost Charge-Pump Regulator Powers White LEDs from a Wide 1.6V to 5.5V Input |
| MAX8863 | LDO Linear Regulator Improves White LED Brightness Matching |
| MAX1698 MAX1848 | Feedback Circuit Enhances Efficiency of Boost-Converter Current Source |
| Protection and Isolation |
| MAX6397 MAX16014 MAX16013 MAX6398 MAX6399 MAX6495 MAX6496 MAX6497 MAX6498 MAX6499 | Active High-Voltage Transient Protectors Trump Conventional Approaches in Automotive Electronics |
| MAX5048 MAX5054 | SPST Bipolar Power Switch Simplifies Power-Supply Testing |
| MAX253 MAX667 | Draw 150mW Of Isolated Power From Off-Hook Phone Line |
| Prototyping and PC-Board Layout |
| MAX16820 | SEPIC Backlight LED Driver
|
| ICM7555 MAX16823 | Reference Design for a 3S3P Rear Combination Lamp (RCL) LED Driver |
| MAX8660 | MAX8660/MAX8661 PCB Layout Guide |
| MAX1917 MAX8632 | MAX8632 PCB Layout Optimization |
| MAX1954 | Correct Board Layout Lowers EMI of Switchmode Converters |
| MAX1811 | Monitor Heat Dissipation in Electronic Systems
by Measuring Active Component Die Temperature
|
| | Basic Switching-Regulator-Layout Techniques |
| MAX1742 | Building a Power Supply That Works |
| MAX1718 MAX1897 | Power Supply Engineer's Guide to Calculate Dissipation for MOSFETs in High-Power Supplies |
| | Prototyping with Surface Mount Devices |
| MAX1712 MAX1710 MAX1865 MAX1917 MAX1711 MAX1846 MAX1847 MAX668 MAX1865 MAX1864 | Layout Considerations for Non-Isolated DC-DC Converters |
| MAX1653 MAX1706 MAX668 | Proper Layout and Component Selection Controls EMI |
| Real-Time Clocks |
| DS28DG02 | User's Guide to the DS28DG02
|
| ResourceSmart: Green Design |
| | Calculating Energy Usage: How Costs Drive Conservation |
| | ResourceSmart™ (Green) Information for Design Engineers
|
| MAX16801 | Offline LED Driver Reference Design |
| MAX16836 | Reference Design for a Signal-Lamp LED Driver |
| MAX16820 | SEPIC Backlight LED Driver
|
| MAX16820 | Reference Design for a 5S2P AR111 Lamp LED Driver |
| MAX16820 MAX5033 | MR-16 LED Driver with a 5V Auxiliary Output to Power a Pulsating LED Cooler |
| MAX8815 MAX9938H | Low-Loss LED Driver Improves a System's Green Footprint by Boosting Efficiency and Extending Battery Life
|
| MAX8674 MAX8648 | Negative Charge Pumps Achieve Inductor-Like Efficiency for WLED Backlights |
| | Replace Inefficient MR16 Halogen Lamps with LEDs |
| DS2711 DS2712 MAX8601 | Overview of Rechargeable Batteries and Fast Stand-Alone Chargers |
| MAX8505 | High-Efficiency DC-DC Converter Fits LDO Footprint |
| DS2502 | Assembling High-Lead (Pb) DS2502 Flip-Chips in a Pb-Free Assembly Flow |
| MAX9030 | Low-Battery Indicator Is Low Cost, Highly Efficient, and Environmentally Friendly |
| Signal Generation Circuits |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| DS1805 MAX5464 MAX5465 MAX5463 MAX5161 MAX5160 MAX5400 MAX5439 MAX5438 MAX5437 MAX5436 | Stack References for Higher Adjustable Voltages from a Digital Pot |
| MAX6194C MAX6145 MAX6107 MAX6045B MAX6045A MAX6067B MAX6023 MAX6163B MAX6103 MAX6063A MAX6063B MAX6033C MAX6033B MAX6129A MAX6129B MAX6035B MAX6126A MAX6029 MAX5400 MAX5160 MAX5161 MAX5463 MAX5465 MAX5464 DS1805 | Ratiometric Design Overcomes the 25% Tolerance of a Digital Potentiometer |
| MAX5482 MAX5481 | How to Calculate the Wiper Voltage of a Digital Potentiometer |
| MAX5048 MAX5054 | SPST Bipolar Power Switch Simplifies Power-Supply Testing |
| MAX541 MAX4162 MAX542 MAX837 | DAC and Op Amp Generate Variable Negative Control Voltage |
| Switches and Multiplexers |
| MAX1558 | Surge Testing Solid-State USB Switches and Other Overcurrent Protectors |
| MAX1674 MAX4501 MAX882 | Protecting Against Momentary Power Loss Due to Battery-Bounce |
| MAX681 MAX319 | Analog Switches Operate With 3V or 5V Supplies |
| Temperature Sensors and Thermal Management |
| MAX8686 MAX15035 | Understand Thermal Derating Aspects of PWM ICs to Ensure the Best System Performance |
| MAX6302 MAX5160 MAX6817 DS1669 DS1804 DS1869 DS1809 MAX5450 MAX5451 MAX5452 MAX5453 MAX5454 MAX5455 DS4301 MAX5475 MAX5472 MAX5474 MAX5471 MAX5126 MAX5128 | Where Is Ground? |
| MAX4613 MAX6506 DS2784 | Adding Thermal Protection to the DS2784 Stand-Alone Fuel Gauge |
| | Addressing the Physical Security of Encryption Keys |
| DS3881 MAX6613 MAX6818 MAX16806 MAX16805 MAX16800 | Power Supplies for Next-Generation Automotive Lighting |
| DS1631A DS2764 DS1722 DS1631 DS2751 DS18B20 DS1822 DS18S20 DS2762 DS2770 DS1726 DS1821 DS1720 DS2761 DS1624 DS2436 DS1620 DS1775 DS1629 DS2740 DS2755 DS1626 DS75 DS1731 DS1621 DS2780 | Installing the DS9123O USB Adapter on Windows® 98 |
| MAX1969 MAX1968 MAX4238 MAX8520 MAX4477 MAX4475 MAX1979 MAX1978 MAX8521 | HFAN-08.2.0: Thermoelectric Cooler (TEC) Control |
| MAX4328 MAX5144 MAX8521 MAX8520 | Compact DWDM laser Temperature Control with the MAX8521 |
| Video Circuits |
| Digital Video |
| MAX3845 MAX3814 MAX4814E MAX3208 MAX4906 MAX4899 MAX3207 MAX1558 MAX4550 MAX9728 MAX9723 MAX7312 MAX3397 MAX6348 MAX1563 MAX1853 MAX6817 | HFRD-34.0 4 x 4 DVI KVM Switch |
| Voltage References |
| MAX1725 MAX5084 MAX5085 MAX5087 MAX1470 MAX1472 MAX15006 MAX6791 MAX6792 | Automotive Linear Regulators Minimize Quiescent Current |
| | Analog ICs for Low Voltage Systems |
| MAX6102 MAX1733 | Buck Regulator Generates Ultra-Low Output Voltage |
| MAX1644 MAX6138 | Accurate DC-DC Converter Minimizes Wasted Power |
| MAX6125 MAX6150 | Miniature, Precision Negative Reference Requires No Precision Resistors |
| MAX6325 MAX675 MAX6062 MX580 MAX6250 MAX6063 MAX674 MAX6163 MAX6160 MAX6064 MAX6101 MAX6350 MAX6103 REF01 MAX6104 MAX6191 MAX6045 MAX6025 MX584 MAX873 MAX6021 MAX6145 MAX6004 MAX6012 MAX6164 MAX6190 MAX874 MAX6162 MAX6067 MAX6030 MAX6120 MAX6141 MAX6520 MAX6041 MAX6161 MAX6341 MX581 MAX6061 MAX6241 MAX6002 MAX6167 MAX6102 MAX6005 MAX6166 M | Selecting the Right Series Voltage Reference for Absolute-Accuracy Voltage-Output DAC Designs |
| Wireless, RF, and Cable |
| Cellular Handsets |
| MAX8507 MAX8506 MAX8508 | RF Power Reduction for CDMA/WCDMA Cellular Phones |
